A few days back over dinner at a CNV gathering, Theresia Gutmann from the Coskun lab casually told me about her PhD work. In collaboration with the Rockefeller University NYC, Theresia had visualized the changing conformation of the human insulin receptor upon insulin binding (paper). I made a sketchnote summarizing their discovery of a conformational switch that could explain how the insulin receptor transforms information about extracellular ligand binding into an intracellular activity to react by taking up glucose!

Original paper Gutmann, Kim et al. (2018): Visualization of ligand-induced transmembrane signaling in the full-length human insulin receptor. Journal of Cell Biology, DOI: 10.1083/jcb.201711047

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A postdoc position is available in the Lehoczky Lab (Brigham and Women’s Hospital/Harvard Medical School). The lab is focused on understanding the molecular basis of mouse digit tip regeneration, with the ultimate goal of teasing apart the genetic pathways necessary for this process.  For more information about the lab see LehoczkyLab.org

Applicants with a strong background in regenerative biology, genetics, developmental biology, and/or molecular biology are encouraged to apply. Prior experience with mouse genetics is preferred.  Experience with RNAseq analysis is a plus.

Interested candidates should provide: 1) cv, 2) a brief letter detailing your interest in the lab and relevant past research experience, and 3) contact information for three references who can comment on your research

Application materials and any questions regarding the position should be sent to Jessica: jlehoczky@bwh.harvard.edu

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Our latest monthly trawl for developmental biology (and other cool) preprints. Let us know if we missed anything.

On February 20^th, The Company of Biologists launched preLights, a community-led preprint highlighting service. A panel of early career researchers (the ‘preLighters’) select and comment on recent preprints that caught their eye, and encourage preprint authors to answer any questions about the work that they had. So far it looks great, and the developmental biology content has been especially good (see the dedicated subject category). We’d love to know what you think: you can contact the team via the site or the Twitter feed.

The idea behind the site was influenced in part by this list – as it got longer and longer (reflecting increased preprint usage), we were wondering how else we could encourage and promote the discussion of preprints, and the preLights idea took form. Rest assured that this list will live on, at least until the point at which it gets impossibly long!

And here’s the list – all the developmental biology I could find, plus relevant and cool other preprints thrown in for good measure.

The preprints were hosted on bioRxiv, PeerJ, and arXiv. Use these links to get to the section you want:

Developmental biology

| Patterning & signalling

| Morphogenesis & mechanics

| Genes & genomes

| Stem cells, regeneration & disease modelling

Evo-devo & evo

Cell biology

Modelling

Tools & resources

| Imaging etc.

| Genome tools

Research practice & education

Why not…

Developmental biology

| Patterning & signalling

Human axial progenitors generate trunk neural crest cells. Thomas J.R. Frith, Ilaria Granata, Erin Stout, Matthew Wind, Oliver Thompson, Katrin Neumann, Dylan Stavish, Paul R Heath, James O.S. Hackland, Konstantinos Anastassiadis, Mina Gouti, James Briscoe, Valerie Wilson, Mario R Guarracino, Peter W Andrews, Anestis Tsakiridis

Lineage tracing axial progenitors using Nkx1.2CreERT2 mice defines their trunk and tail contributions. Aida Rodrigo Albors, Pamela A Halley, Kate G Storey

A conserved regulatory program drives emergence of the lateral plate mesoderm. Christopher Hess, Karin Dorien Prummel, Susan Nieuwenhuize, Hugo Parker, Katherine W. Rogers, Iryna Kozmikova, Claudia Racioppi, Sibylle Burger, Eline C. Brombacher, Alexa Burger, Anastasia Felker, Elena Chiavacci, Gopi Shah, Jan Huisken, Zbynek Kozmik, Lionel Christiaen, Patrick Mueller, Marianne Bronner, Robb Krumlauf, Christian Mosimann

Hedgehog signaling controls progenitor differentiation timing during heart development. Megan Rowton, Andrew D. Hoffmann, Jeffrey D. Steimle, Xinan Holly Yang, Alexander Guzzetta, Sonja Lazarevic, Chul Kim, Nikita Deng, Emery Lu, Jessica Jacobs-Li, Shuhan Yu, Erika Hanson, Carlos Perez-Cervantes, Sunny Sun-Kin Chan, Kohta Ikegami, Daniel J. Garry, Michael Kyba, Ivan P. Moskowitz

SOX2 Regulation by Hedgehog Signaling Controls Adult Lingual Epithelium Homeostasis. David Castillo-Azofeifa, Kerstin Seidel, Lauren Gross, Belkis Jacquez, Ophir D Klein, Linda A. Barlow

Extracellular Pax6 regulates tangential Cajal-Retzius cell migration. Hadhemi Kaddour, Eva Coppola, Ariel Di Nardo, Andrea Wizenmann, Michel Volovitch, Alain Prochiantz, Alessandra Pierani

Axon Guidance Signaling Modulates Epithelial to Mesenchymal Transition in Stem Cell-Derived Retinal Pigment Epithelium. Srinivas R. Sripathi, Melissa M. Liu, Ming-Wen Hu, Jun Wan, Jie Cheng, Yukan Duan, Joseph Mertz, Karl Wahlin, Julien Maruotti, Cynthia A Berlinicke, Jiang Qian, Donald J. Zack

Neuroligins mediate presynaptic maturation through brain-derived neurotrophic factor signaling. Andoniya Petkova, Nina Goedecke, Martin Korte, Thomas Dresbach

In vivo clonal analysis reveals spatiotemporal regulation of thalamic nucleogenesis. Samuel Wong, Earl Parker Scott, Wenhui Mu, Xize Guo, Ella Borgenheimer, Madeline Freeman, Guo-li Ming, Qing-Feng Wu, Hongjun Song, Yasushi Nakagawa

Osteoclasts control sensory neurons axonal growth through epidermal growth factor receptor signaling. Estrela Neto, Daniela Sousa, Francisco Conceição, Luís Leitão, Cecília Juliana Alves, Inês Alencastre, Jonathan West, Richard O. C. Oreffo, Meriem Lamghari

FGF activity asymmetrically regulates the timing of habenular neurogenesis in a Nodal-dependent manner. Benjamin J Dean, Joshua T Gamse, Shu-Yu Wu

The transcription factor Tfap2e/AP-2ε plays a pivotal role in maintaining the identity of basal vomeronasal sensory neurons. Jennifer M Lin, Ed Zandro M Taroc, Jesus A Frias, Aparna Prasad, Allison N Catizone, Morgan A Sammons, Paolo E. Forni

Tdrd6a regulates the aggregation of Buc into functional subcellular compartments that drive germ cell specification. Elke F Roovers, Lucas JT Kaaij, Stefan Redl, Alfred W Bronkhorst, Kay Wiebrands, Antonio Miguel de Jesus Domingues, Hsin-Yi Huang, Chung-Ting Han, Willi Salvenmoser, Dominic Gruen, Falk Butter, Alexander van Oudenaarden, Rene F Ketting

Blimp-1 mediates the temporal control of embryonic tube maturation. Arzu Ozturk-Colak, Camille Stephan-Otto Attolini, Jordi Casanova, Sofia J. Araujo

The integrated stress response regulates BMP signaling through effects on translation. Elke Malzer, Caia S Dominicus, Joseph E Chambers, Souradip Mookerjee, Stefan J Marciniak

Dietary lipids modulate Notch signaling and influence adult intestinal development and metabolism in Drosophila. Rebecca Obniski, Matthew Sieber, Allan C Spradling

Spatio-temporal relays control layer specificity of motion-direction sensitive neurons in Drosophila. Holger Apitz, Iris Salecker

Torso-like is a component of the hemolymph and regulates the insulin signalling pathway in Drosophila. Michelle A Henstridge, Lucinda Aulsebrook, Takashi Koyama, Travis K Johnson, James C Whisstock, Tony Tiganis, Christen K Mirth, Coral G Warr

Variability in timing of a β-catenin pulse biases a stochastic cell fate decision in C. elegans. Jason R Kroll, Jasonas Tsiaxiras, Jeroen S van Zon

The Atypical Rho GTPase CHW-1 Works With SAX-3/Robo to Mediate Axon Guidance in Caenorhabditis elegans. Jamie Alan, Sara Robinson, Katie Magsig, Rafael Demarco, Erik A. Lundquist

Phospho-regulation of Atoh1 is required for plasticity of secretory progenitors and tissue regeneration. Goran Tomic, Edward Morrissey, Sarah Kozar, Shani Ben-Moshe, Alice Hoyle, Roberta Azzarelli, Richard Kemp, Chandra Sekhar Reddy Chilamakuri, Shalev Itzkovitz, Anna Philpott, Douglas Winton

The TMEM16A Channel Mediates the fast polyspermy block in Xenopus Laevis. Katherine L Wozniak, Wesley A Phelps, Maiwase Tembo, Miler T Lee, Anne E Carlson

Early lethality of embryos derived from transgenic Xenopus females is associated with reduced ovarian grem1 expression. Caroline W Beck, Joanna Ward, Lisa Troise, Catherine Brochard

Genetic inactivation of alpha-synuclein affects embryonic development of dopaminergic neurons of the substantia nigra but not the ventral tegmental area in mouse brain. Tatyana V Tarasova, Olga A Lytkina, Valeria V Goloborshcheva, Larisa N Skuratovskaya, Alexandr I Antohin, Ruslan K Ovchinnikov, Michail S Kukharsky​

Single-cell analysis of progenitor cell dynamics and lineage specification of the human fetal kidney. Rajasree Menon, Edgar A. Otto, Austin Kokoruda, Jian Zhou, Zidong Zhang, Euisik Yoon, Yu-Chih Chen, Olga Troyanscaya, Jason Spence, Matthias Kretzler, Cristina Cebrian

A hypomorphic Stip1 allele reveals the requirement for chaperone networks in mouse development and aging. Rachel Lackie, Marilene H Lopes, Sali M.K. Farhan, Abdul Razzaq, Gilli Moshitzky, Mariana B Prado, Flavio H Beraldo, Andrzej Maciejewski, Robert Gros, Jue Fan, Wing-Yiu Choy, David Greenberg, Vilma R Martins, Martin Duennwald, Hermona Soreq, Vania F Prado, Marco A. M. Prado

Bioelectric-calcineurin signaling module regulates allometric growth and size of the zebrafish fin. Jacob Daane, Jennifer Lanni, Ina Rothenberg, Guiscard Seebohm, Charles Higdon, Stephen Johnson, Matthew Harris

GEMC1 and CCNO are required for efferent duct development and male fertility. Berta Terre, Michael Lewis, Gabriel Gil-Gomez, Travis H Stracker

| Morphogenesis & mechanics

Characterization of convergent thickening, a major convergence force producing morphogenic movement in amphibians. David R Shook, Jason Wen, Ana Rolo, Brian Francica, Destiny Dobins, Paul Skoglund, Douglas DeSimone, Rudolf Winklbauer, Ray Keller

Large, long range tensile forces drive convergence during Xenopus blastopore closure and body axis elongation. David R Shook, Ray Keller, Lance Davidson, Eric M. Kasprowicz

Contact-dependent cell communications drive morphological invariance during ascidian embryogenesis. Leo Guignard, Ulla-Maj Fiuza, Bruno Leggio, Emmanuel Faure, Julien Laussu, Lars Hufnagel, Gregoire Malandain, Christophe Godin, Patrick Lemaire

Tbx1 regulates extracellular matrix- and cell-cell interactions in the second heart field. Antonio Baldini, Daniela Alfano, Alessandra Altomonte, Marchesa Bilio

An unconventional myosin, myosin 1d regulates Kupffer’s vesicle morphogenesis and laterality. Manush Saydmohammed, Hisato Yagi, Michael Calderon, Madeline J Clark, Timothy Feinstein, Ming Sun, Donna B Stolz, Simon C Watkins, Jeffrey Amack, Cecilia Lo, Michael Tsang

Myosin1D is an evolutionarily conserved determinant of animal Left/Right asymmetry. Thomas Juan, Charles Géminard, Jean-Baptiste Coutelis, Delphine Cerezo, Sophie Polès, Stéphane Noselli, Maximilian Fürthauer

Integrin signaling downregulates filopodia in muscle-tendon attachment. Benjamin Richier, Yoshiko Inoue, Ulrich Dobramysl, Jonathan Friedlander, Nicholas H. Brown, Jennifer Louise Gallop

Long-range Notch-mediated tissue patterning requires actomyosin contractility. Ginger Hunter, Li He, Norbert Perrimon, Guillaume Charras, Edward Giniger, Buzz Baum

Atf3 links loss of epithelial polarity to defects in cell differentiation and cytoarchitecture. Colin D. Donohoe, Gabor Csordas, Andreia Correia, Marek Jindra, Corinna Klein, Bianca Habermann, Mirka Uhlirova

Myosin Heavy Chain-embryonic is a crucial regulator of skeletal muscle development and differentiation. Akashi Sharma, Megha Agarwal, Amit Kumar, Pankaj Kumar, Masum Saini, Gabrielle Kardon, Sam Mathew

The C. elegans heterochronic gene lin-28 coordinates the timing of hypodermal and somatic gonadal programs for hermaphrodite reproductive system morphogenesis. Sungwook Choi, Victor Ambros

Non-canonical apical constriction shapes emergent matrices in C. elegans. Sophie S Katz, Chloe Maybrun, Alison Renee Frand

A microtubule-based mechanism predicts cell division orientation in plant embryogenesis. Bandan Chakrabortty, Viola Willemsen, Thijs de Zeeuw, Che-Yang Liao, Dolf Weijers, Bela Mulder, Ben Scheres

Feeling the force: how pollen tubes deal with obstacles. Jan T Burri, Hannes Vogler, Nino F Läubli, Chengzhi Hu, Ueli Grossniklaus, Bradley J Nelson

Microtubule-associated protein IQ67 DOMAIN5 regulates interdigitation of leaf pavement cells in Arabidopsis thaliana. Dipannita Mitra, Pratibha Kumari, Jakob Quegwer, Sandra Klemm, Birgit Moeller, Yvonne Poeschl, Paul Pflug, Gina Stamm, Steffen Abel, Katharina Bürstenbinder

Cell death in cells overlying lateral root primordia contributes to organ growth in Arabidopsis. Sacha Escamez, Benjamin Bollhoner, Hardy Hall, Domenique Andre, Beatrice Berthet, Ute Voss, Amnon Lers, Alexis Maizel, Malcolm Bennett, Hannele Tuominen

FERONIA’s sensing of cell wall pectin activates ROP GTPase signaling in Arabidopsis. Wenwei Lin, Wenxin Tang, Charles Anderson, Zhenbiao Yang

Adaptive diversification of growth allometry in the plant Arabidopsis thaliana. Francois Vasseur, Moises Exposito-Alonso, Oscar Javier Ayala-Garay, George Wang, Brian J Enquist, Denis Vile, Cyrille Violle, Detlef Weigel

A mechanism for the proliferative control of tissue mechanics in the absence of growth. Min Wu, Madhav Mani

Endothelia extrude apoptotic cells to maintain a constant barrier. Tara Mleynek, Dean Li, Jody Rosenblatt, Michael Jarman Redd, Aubrey Chan, Yapeng Gu

Cellular Migration May Exhibit Intrinsic Left-Right Asymmetries: A meta-analysis. Kelly G. Sullivan, Laura N. Vandenberg, Michael Levin

Increased prenatal brain growth in a transgenic mouse model decreases cranial development: An expensive tissue hypothesis for the skull. Elisabeth K N López​, Matthew J Ravosa

In vivo optochemical control of cell contractility at single cell resolution by Ca2+ induced myosin activation. Deqing Kong, Fred Wolf, Joerg Grosshans.

A quantitative study of blood circulation in the developing adult ascidian tunicate Ciona savignyi (Cionidae). Michael W Konrad

Tissue-specific activities of the Fat1 cadherin cooperate to control neuromuscular morphogenesis. Francoise Helmbacher

Zebrafish sp7 mutants show tooth cycling independent of attachment, eruption and poor differentiation of teeth. Erika Kague, Paul Eckhard Witten, Mieke Soenens, Camila Lovaglio Campos, Tiago Lubiana, Shannon Fisher, Chrissy Hammond, Kate Robson Brown, Maria Rita Passos Bueno, Ann Huysseune

| Genes & genomes

Disruption in A-to-I editing levels affects C. elegans development more than a complete lack of editing. Nabeel S. Ganem, Noa Ben-Asher, Aidan C. Manning, Sarah N. Deffit, Michael C. Washburn, Emily C. Wheeler, Gene W Yeo, Orna Ben-Naim Zgayer, Einav Mantsur, Heather A. Hundley, Ayelet T Lamm

ADAR1 A-to-I RNA editing alters codon usage. Pavla Brachova, Nehemiah S Alvarez, Xiaoman Hong, Kailey A. Vincent, Keith E. Latham, Lane K. Christenson

Identification of piRNA binding sites reveals the Argonaute regulatory landscape of the C. elegans germline. En-Zhi Shen, Hao Chen, Ahmet R. Ozturk, Shikui Tu, Masaki Shirayama, Wen Tang, Yue-He Ding, Si-Yuan Dai, Zhiping Weng, Craig C. Mello

H3K9 methylation maintains female identity in Drosophila germ cells through repression of the spermatogenesis program. Anne Smolko, Laura Shapiro-Kulnane, Helen Salz

Fanconi Anemia FANCM/FNCM-1 and FANCD2/FCD-2 are required for maintaining histone methylation levels and interact with the histone demethylase LSD1/SPR-5 in C. elegans. Hyun-Min Kim, Sara E Beese-Sims, Monica P. Colaiácovo

GTSF-1 is required for the formation of a functional RNA-dependent RNA Polymerase complex in C. elegans. Miguel V. Almeida, Sabrina Dietz, Stefan Redl, Emil Karaulanov, Andrea Hildebrandt, Christian Renz, Helle D. Ulrich, Julian König, Falk Butter, René F. Ketting

Dissection of the microProtein miP1 floral repressor complex in Arabidopsis. Vandasue L. Rodrigues, Ulla Dolde, Daniel Straub, Tenai Eguen, Esther Botterweg-Paredes, Bin Sun, Shinyoung Hong, Moritz Graeff, Man-Wah Li, Joshua Gendron, Stephan Wenkel

Differences in firing efficiency, chromatin and transcription underlie the developmental plasticity of Arabidopsis originome. Joana Sequeira-Mendes, Zaida Vergara, Ramon Peiro, Jordi Morata, Irene Araguez, Celina Costas, Raul Mendez-Giraldez, Josep Casacuberta, Ugo Bastolla, Crisanto Gutierrez

Incomplete reprogramming of cell-specific epigenetic marks during asexual reproduction leads to heritable phenotypic variation in plants. Anjar Wibowo, Claude Becker, Julius Durr, Jonathan Price, Stijn Staepen, Sally Hilton, Hadi Putra, Ranjith Papareddy, Quentin Saintain, Sarah Harvey, Gary D Bending, Paul Schulze-Lefert, Detlef Weigel, Jose Gutierrez-Marcos

Epigenomic plasticity of Arabidopsis msh1 mutants under prolonged cold stress. Sunil Kumar Kenchanmane Raju, Mon-Ray Shao, Yashitola Wamboldt, Sally Mackenzie

A Lotus japonicus E3 ligase interacts with the Nod factor receptor 5 and positively regulates nodulation. Daniela Tsikou, Estrella E. Ramirez, Ioanna S Psarrakou, Jaslyn E Wong, Dorthe B Jensen, Erika Isono, Simona Radutoiu, Kalliope K Papadopoulou

Dazl regulates germ cell survival through a network of polyA proximal mRNA interactions. Leah L Zagore, Thomas J Sweet, Molly M Hannigan, Sebastien M Weyn-Vanhentenryck, Chaolin Zhang, Donny D Licatalosi

Enhancer RNAs are necessary and sufficient for activity-dependent neuronal gene transcription. Nancy V.N. Gallus, Rhiana A. Simon, Aaron J Salisbury, Jasmin S. Revanna, Kendra D. Bunner, Katherine E. Savell, Faraz A. Sultan, Charles A. Gersbach, Jeremy J. Day

Mef-2 and p300 interact to regulate expression of the homeostatic regulator Pumilio in Drosophila. Wei-Hsiang Lin, Richard Baines

APC/C-Vihar regulates centrosome activity and stability in the Drosophila germline. Alexis L. Braun, Francesco Meghini, Gema Villa-Fombuena, Elisa M. Fernandez, Morgane Guermont, David M Glover, Maria D. Martin-Bermudo, Acaimo Gonzalez-Reyes, Yuu Kimata

A Genetic Program Mediates Cold-warming Response and Promotes Stress-induced Phenoptosis in C. elegans. Wei Jiang, Yuehua Wei, Yong Long, Arthur Owen, Bingying Wang, Xuebing Wu, Shuo Luo, Yongjun Dang, Dengke K. Ma

DNA methylation dynamics during embryonic development and postnatal maturation of the mouse auditory organ of Corti. Ofer Yizhar-Barnea, Cristina Valensisi, Kamal Kishore, Naresh Doni Jayavelu, Colin Andrus, Tal Koffler-Brill, Kathy Ushakov, Kobi Perl, Yael Noy, Yoni Bhonker, Mattia Pelizzola, R. David Hawkins, Karen B. Avraham

Aggregation recovers developmental plasticity in mouse polyploid embryos. Hiroyuki Imai, Wataru Fujii, Ken Takeshi Kusakabe, Yasuo Kiso, Kiyoshi Kano

Capturing the onset of PRC2-mediated repressive domain formation. Ozgur Oksuz, Varun Narendra, Chul-Hwan Lee, Nicolas Descostes, Gary LeRoy, Ramya Raviram, Lili Blumenberg, Kelly Karch, Pedro R. Rocha, Benjamin A. Garcia, Jane A. Skok, Danny Reinberg

Cell type-dependent control of p53 transcription and enhancer activity by p63. Gizem Karsli Uzunbas, Faraz Ahmed, Morgan A Sammons

Genome-wide enhancer – gene regulatory maps in two vertebrate genomes. Yves Clément, Patrick Torbey, Pascale Gilardi-Hebenstreit, Hugues Roest Crollius

KLF6 and STAT3 co-occupy regulatory DNA and functionally synergize to promote axon growth in CNS neurons. Zimei Wang, Ishwariya Venkatesh, Vatsal Mehra, Matthew Simpson, Brian Maunze, Erik Eastwood, Lyndsey Holan, Murray Blackmore

Germline DNA replication timing shapes mammalian genome composition. Yishai Yehida, Britny Blumenfeld, Nina Mayorek, Kirill Makedonski, Oriya Vardi, Yousef Mansour, Hagit Masika, Marganit Farago, Shulamit Baror-Sebban, Yosef Buganim, Amnon Koren, Itamar Simon

| Stem cells, regeneration & disease modelling

Tracing the Transitions from Pluripotency to Germ Cell Fate with CRISPR Screening. Jamie A Hackett, Yun Huang, Ufuk Gunesdogan, Kristjan Holm-Gretarsson, Toshihiro Kobayashi, Azim M Surani

Neutralizing Gatad2a-Chd4-Mbd3 Axis within the NuRD Complex Facilitates Deterministic Induction of Naive Pluripotency. Nofar Mor, Yoach Rais, Shani Peles, Daoud Sheban, Alejandro Aguilera-Castrejon, Asaf Zviran, Dalia Elinger, Sergey Viukov, Shay Geula, Vladislav Krupalnik, Mirie Zerbib, Elad Chomsky, Lior Lasman, Tom Shani, Jonathan Bayerl, Ohad Gafni, Suhair Hanna, Jason Buenrostro, Tzachi Hagai, Hagit Masika, Yehudit Bergman, William J. Greenleaf, Miguel A. Esteban, Yishai Levin, Rada Massarwa, Yifat Merbl, Noa Novershtern, Jacob H. Hanna

Delayed activation of the DNA replication licensing system in Lgr5(+) intestinal stem cells. Thomas Carroll, Ian Newton, Yu Chen, Julian J. Blow, Inke Nathke

Efficient differentiation of vascular endothelial cells from dermal-derived mesenchymal stem cells induced by endothelial cell lines conditioned medium. Ling Zhou, Xuping Niu, Jiannan Liang, Junqin Li, Jiao Li, Yueai Cheng, Yanfeng Meng, Qiang Wang, Xiaoli Yang, Gang Wang, Yu Shi, Erle Dang, Kaiming Zhang

Clonal Level Lineage Commitment Pathways of Hematopoietic Stem Cells In Vivo. Rong Lu, Agnieszka Czechowicz, Jun Seita, Du Jiang, Irving L Weissman

Hematopoietic Stem And Progenitor Cells Use Podosomes To Transcellularly Home To The Bone Marrow. Timo Rademakers, Marieke Goedhart, Mark Hoogenboezem, Alexander García Ponce, Jos van Rijssel, Maryna Samus, Michael Schnoor, Stefan Butz, Stephan Huveneers, Dietmar Vestweber, Martijn A Nolte, Carlijn Voermans, Jaap D van Buul

Epigenetic aging of human hematopoietic cells is not accelerated upon transplantation into mice. Joana Frobel, Susann Rahmig, Julia Franzen, Claudia Waskow, Wolfgang Wagner

Emergence of the erythroid lineage from multipotent hematopoiesis. Betsabeh Khoramian Tusi, Samuel L Wolock, Caleb Weinreb, Yung Hwang, Daniel Hidalgo, Rapolas Zilionis, Ari Waisman, Jun Huh, Allon M Klein, Merav Socolovsky

An immortalised mesenchymal stem cell line maintains mechano-responsive behaviour and can be used as a reporter of substrate stiffness. Asier Galarza Torre, Joshua E Shaw, Amber Wood, Hamish T J Gilbert, Oana Dobre, Paul Genever, Keith Brennan, Stephen M Richardson, Joe Swift

Heat shock induces the depletion of Oct4 in mouse blastocysts and stem cells. Mo-bin Cheng, Xue Wang, Yue Huang, Ye Zhang

Single-cell transcriptome of antler stem cells from antlerogenic periosteum. Hengxing Ba, Datao Wang, Weiyao Wu, Hongmei Sun, Chunyi Li

Xist Intron 1 Repression by TALE Transcriptional Factor Improves Somatic Cell Reprogamming in Mice. Jindun Zhang, Xuefei Gao, Jian Yang, Xiaoying Fan, Wei Wang, Yanfeng Liang, Lihong Fan, Hongmei Han, Xiaorong Xu, Fuchou Tang, Siqin Bao, Pentao Liu, Xihe Li

Tectal stem cells display diverse regenerative capacities. Benjamin W Lindsey, Georgia E Aitken, Jean K Tang, Mitra Khabooshan, Celia Vandestadt, Jan Kaslin

Developmental chromatin restriction of pro-growth gene networks acts as an epigenetic barrier to axon regeneration in cortical neurons. Ishwariya Venkatesh, Vatsal Mehra, Zimei Wang, Ben Califf, Murray Blackmore

Neuregulin-1 exerts molecular control over axolotl lung regeneration through ErbB family receptors. Tyler B Jensen, Peter Giunta, Natalie Grace Schulz, Yaa Kyeremateng, Hilary Wong, Adeleso Adesina, James R Monaghan

Targeting TrkB with a brain-derived neurotrophic factor mimetic promotes myelin repair in the brain. Jessica Louise Fletcher, Rhiannon J Wood, Jacqueline Nguyen, Eleanor ML Normon, Christine MK Jun, Alexa R Prawdiuk, Melissa Biemond, Huynh TH Nguyen, Susan E Northfield, Richard A Hughes, David G Gonsalvez, Junhua Xiao, Simon S Murray

Age-dependent dormant resident progenitors are stimulated by injury to regenerate Purkinje neurons. Nermin Sumru Bayin, Alexandre Wojcinski, Aurelien Mourton, Hiromitsu Saito, Noboru Suzuki, Alexandra L Joyner

Reversing Glial Scar Back To Neural Tissue Through NeuroD1-Mediated Astrocyte-To-Neuron Conversion. Lei Zhang, Zhuofan Lei, Ziyuan Guo, Zifei Pei, Yuchen Chen, Fengyu Zhang, Alice Cai, Yung Kin Mok, Grace Lee, Vishal Swaminathan, Fan Wang, Yuting Bai, Gong Chen

Loss of embryonic neural crest cardiomyocytes causes adult hypertrophic cardiomyopathy. Sarah Abdul-Wajid, Bradley Demarest, H. Joseph Yost

p53 deletion rescues apoptosis and microcephaly in a Kif20b mouse mutant. Jessica Neville Little, Noelle D. Dwyer

Altered neocortical gene expression, brain overgrowth and functional over-connectivity in Chd8 haploinsufficient mice. Philipp Suetterlin, Shaun Hurley, Conor Mohan, Kimberley L. H. Riegman, Marco Pagani, Angela Caruso, Jacob Ellegood, Alberto Galbusera, Ivan Crespo-Enriquez, Caterina Michetti, Yohan Yee, Robert Ellingford, Olivier Brock, Alessio Delogu, Philippa Francis-West, Jason P. Lerch, Maria Luisa Scattoni, Alessandro Gozzi, Cathy Fernandes, Albert Basson

Survey of human chromosome 21 gene expression effects on early development in Danio rerio. Sarah Edie, Norann A Zaghloul, Carmen C Leitch, Donna K Klinedinst, Janette Lebron, Joey F Thole, Andrew S. McCallion, Nicholas Katsanis, Roger H. Reeves

Regulation of midgut cell proliferation impacts Aedes aegypti susceptibility to dengue virus. Mabel L. Taracena, Vanessa Bottino-Rojas, Octavio A.C. Talyuli, Ana Beatriz Walter-Nuno, Jose Henrique M. Oliveira, Yesseinia I. Anglero-Rodriguez, Michael B. Wells, George Dimopoulos, Pedro L. Oliveira, Gabriela O. Paiva-Silva

Ablation of Ezh2 in neural crest cells leads to Hirschsprung’s disease-like phenotype in mice. Joomyeong Kim, Hana Kim, Ingeborg M. Langohr, Mohammad Faisal, Margaret McNulty, Caitlin Thorn

Building a schizophrenia genetic network: Transcription Factor 4 regulates genes involved in neuronal development and schizophrenia risk. Hanzhang Xia, Fay M Jahr, Nak-Kyeong Kim, Linying Xie, Andrey A Shabalin, Julien Bryois, Douglas H Sweet, Mohamad M Kronfol, Preetha Palasuberniam, MaryPeace McRae, Brien P Riley, Patrick F Sullivan, Edwin J van den Oord, Joseph McClay

Pervasive epistasis modulates neurodevelopmental defects of the autism-associated 16p11.2 deletion. Janani Iyer, Mayanglambam Dhruba Singh, Matthew Jensen, Payal Patel, Lucilla Pizzo, Emily Huber, Haley Koerselman, Alexis T. Weiner, Paola Lepanto, Komal Vadodaria, Alexis Kubina, Qingyu Wang, Abigail Talbert, Sneha Yennawar, Jose Badano, J. Robert Manak, Melissa M. Rolls, Arjun Krishnan, Santhosh Girirajan

The critical role of ASD-related gene CNTNAP3 in regulating synaptic development and social behavior in mice. Dali Tong, Ruiguo Chen, Yulan Lu, Weike Li, Yuefang Zhang, Junkai Lin, Lingjie He, Ting Dang, Shifang Shan, Xiaohong Xu, Yi Zhang, Chen Zhang, Yasong Du, Wen-Hao Zhou, Xiaoqun Wang, Zilong Qiu

Haploinsufficiency of autism candidate gene NUAK1 impairs cortical development and behavior. Virginie Courchet, Amanda J Roberts, Peggy Del Carmine, Tommy L Lewis Jr., Franck Polleux, Julien Courchet

The dyslexia susceptibility KIAA0319 gene shows a highly specific expression pattern during zebrafish development supporting a role beyond neuronal migration. Monika Gostic, Angela Martinelli, Carl Tucker, Zhengyi Yang, Federico Gasparoli, Kishan Dholakia, Keith Sillar, Javier Tello, Silvia Paracchini

Accelerated brain aging towards transcriptional inversion in a zebrafish model of familial Alzheimer’s disease. Nhi Hin, Morgan Newman, Jan Kaslin, Alon M. Douek, Amanda Lumsden, Xin-Fu Zhou, Noralyn B. Mañucat-Tan, Alastair Ludington, David L. Adelson, Stephen Pederson, Michael Lardelli

Ratiometric assays of autophagic flux in zebrafish for analysis of familial Alzheimer’s disease-like mutations. Haowei Jiang, Morgan Newman, Dhanushika Ratnayake, Michael Lardelli

Increased autophagy in ephrinB2 deficient osteocytes is associated with hypermineralized, brittle bones. Christina Vrahnas, Toby A Dite, Niloufar Ansari, Blessing Crimeen-Irwin, Huynh Nguyen, Mark R Forwood, Yifang Hu, Mika Ikegame, Keith R Bambery, Cyril Petibois, Mark J Tobin, Gordon K Smyth, Jonathan S Oakhill, T John Martin, Natalie A Sims

Evo-devo & evo

Divergent genetic mechanisms lead to spiny hair in mammals. Gislene L. Goncalves, Renan Maestri, Gilson R.P. Moreira, Marly A.M. Jacobi, Thales R.O. Freitas, Hopi E. Hoekstra

Endoderm Morphogenesis Reveals Integration of Distinct Processes in the Development and Evolution of Pharyngeal Arches. Shinji Takada, Kazunori Okada, Hiroshi Wada

Developmental Mechanisms Linking Form and Function During Jaw Evolution. Katherine C Woronowicz, Stephanie E Gline, Safa T Herfat, Aaron J Fields, Richard A Schneider

An evolutionary-conserved Wnt3/β-catenin/Sp5 feedback loop restricts head organizer activity in Hydra. Matthias Christian Vogg, Leonardo Beccari, Laura Iglesias Olle, Christine Rampon, Sophie Vriz, Chrystelle Perruchoud, Yvan Wenger, Brigitte Galliot

tarsal-less is expressed as a gap gene but has no gap gene phenotype in the moth midge Clogmia albipunctata. eva jimenez-guri, Karl Wotton, Johannes Jaeger

Evidence of adhesion and signaling roles for β-catenin in the sponge Ephydatia muelleri. Klaske J. Schippers, Scott A. Nichols

From spiral cleavage to bilateral symmetry: The developmental cell lineage of the annelid brain. Pavel Vopalensky, Maria Antonietta Tosches, Kaia Achim, Mette Handberg-Thorsager, Detlev Arendt

Elongation during segmentation shows axial variability, low mitotic rates, and synchronized cell cycle domains in the crustacean, Thamnocephalus platyurus. Savvas J Constantinou, Nicole Duan, Ariel D. Chipman, Lisa M. Nagy, Terri A. Williams

Changes in the neuropeptide complement correlate with nervous system architectures in xenacoelomorphs. Daniel Thiel, Mirita Franz-Wachtel, Felipe Aguilera, Andreas Hejnol

Intergenerational epigenetic inheritance in reef-building corals. Yi Jin Liew, Emily J. Howells, Xin Wang, Craig T. Michell, John A. Burt, Youssef Idaghdour, Manuel Aranda

Expanding the genetic toolkit of Tribolium castaneum. Johnathan C Rylee, Dylan J Siniard, Kaitlin Doucette, Gabriel E Zentner, Andrew Zelhof

Convergent evolution of gene expression in two high-toothed stickleback populations. James C Hart, Nicholas A Ellis, Michael B Eisen, Craig T Miller

Identification of general patterns of sex-biased expression in Daphnia, a genus with environmental sex determination. Cécile Molinier, Céline Reisser, Peter Fields, Adeline Segard, Yan Galimov, Christoph R. Haag

Genomic imprinting mediates dosage compensation in a young plant XY system. Aline Muyle, Niklaus Zemp, Cecile Fruchard, Radim Cegan, Jan Vrana, Clothilde Deschamps, Raquel Tavares, Franck Picard, Roman Hobza, Alex Widmer, Gabriel Marais

Delegating sex: differential gene expression in stolonizing syllids uncovers the hormonal control of reproduction in Annelida. Patricia Alvarez-Campos, Nathan Kenny, Aida Verdes, Rosa Maria Fernandez, Marta Novo, Gonzalo Giribet, Ana Riesgo

Concurrent duplication of the Cid and Cenp-C genes in the Drosophila subgenus with signatures of subfunctionalization and male germline-biased expression. Jose R. Teixeira, Guilherme B. Dias, Marta Svartman, Alfredo Ruiz, Gustavo C. S. Kuhn

Convergent regulatory evolution and the origin of flightlessness in palaeognathous birds. Timothy B. Sackton, Phil Grayson, Alison Cloutier, Zhirui Hu, Jun S. Liu, Nicole E. Wheeler, Paul P. Gardner, Julia A. Clarke, Allan J. Baker, Michele Clamp, Scott V. Edwards

Genotyping-by-sequencing supports a genetic basis for alpine wing-reduction in a New Zealand stonefly. Andrew J. Veale, Brodie J. Foster, Peter K. Dearden, Jon M. Waters

Transposable elements generate regulatory novelty in a tissue specific fashion. Marco Trizzino, Aurelie Kapusta, Christopher Brown

The effects of haploid selection on Y chromosome evolution in a dioecious plant. George Sandler, Felix E.G. Beaudry, Spencer C.H. Barrett, Stephen I. Wright

Adaptive Reduction of Male Gamete Number in a Selfing Species. Takashi Tsuchimatsu, Hiroyuki Kakui, Misako Yamazaki, Cindy Marona, Hiroki Tsutsui, Afif Hedhly, Dazhe Meng, Yutaka Sato, Thomas Stadler, Ueli Grossniklaus, Masahiro M. Kanaoka, Michael Lenhard, Magnus Nordborg, Kentaro K. Shimizu

Firefly genomes illuminate parallel origins of bioluminescence in beetles. Timothy R Fallon, Sarah E Lower, Ching-Ho Chang, Manabu Bessho-Uehara, Gavin J Martin, Adam J Bewick, Megan Behringer, Humberto J Debat, Isaac Wong, John C Day, Anton Suvorov, Christian J Silva, Kathrin F Stanger-Hall, David W Hall, Robert J. Schmitz, David R Nelson, Sara Lewis, Shuji Shigenobu, Seth M Bybee, Amanda M Larracuente, Yuichi Oba, Jing-Ke Weng

The Aquilegia genome: adaptive radiation and an extraordinarily polymorphic chromosome with a unique history. Daniele Filiault, Evangeline Ballerini, Terezie Mandakova, Gokce Akoz, Nathan Derieg, Jeremy Schmutz, Jerry Jenkins, Jane Grimwood, Shengqiang Shu, Richard Hayes, Uffe Hellsten, Kerrie Barry, Juyiang Yan, Sirma Mihaltcheva, Miroslava Karafiatova, Viktoria Nizhynska, Martin Lysak, Scott Hodges, Magnus Nordborg

The genome of the water strider Gerris buenoi reveals expansions of gene repertoires associated with adaptations to life on the water. David Armisen, Rajendhran Rajakumar, Markus Friedrich, Joshua B Benoit, Hugh M Robertson, Kristen A Panfilio, Seung-Joon Ahn, Monica F Poelchau, Hsu Chao, Huyen Dinh, HarshaVardhan Doddapaneni, Shannon Dugan-Perez, Richard A Gibbs, Daniel ST Hughes, Yi Han, Sandra L Lee, Shwetha C Murali, Donna M Muzny, Jiaxin Qu, Kim C Worley, Monica Munoz-Torres, Ehab Abouheif, Francois Bonneton, Travis Chen, Li-Mei Chiang, Christopher P. Childers, Andrew G Cridge, Antonin JJ Crumiere, Amelie Decaras, Elise M Didion, Elizabeth Duncan, Elena N Elpidina, Marie-Julie Fave, Cedric Finet, Chris GC Jacobs, Alys Jarvela, Emily J Jennings, Jeffery W Jones, Maryna P Lesoway, Mackenzie Lovegrove, Alexander Martynov, Brenda Oppert, Angelica Lilico-Ouachour, Arjuna Rajakumar, Peter N Refki, Andrew J Rosendale, Maria Emilia Santos, William Toubiana, Maurijn van der Zee, Iris M Vargas Jentzsch, Aidamalia Vargas Lowman, Severine Viala, Stephen Richards, Abderrahman Khila

Cell biology

F-actin patches nucleated on chromosomes coordinate capture by microtubules in oocyte meiosis. Mariia Burdyniuk, Andrea Callegari, Masashi Mori, Francois Nedelec, Peter Lenart

Rab-mediated trafficking in the secondary cells of Drosophila male accessory glands and its role in fecundity. Elodie Prince, Marko Brankatschk, Benjamin Kroeger, Clive Wilson, Dragan Gligorov, Suzanne Eaton, Francois Karch, Robert K Maeda

Persistent cell motility requires transcriptional feedback of cytoskeletal – focal adhesion equilibrium by YAP/TAZ. Devon E Mason, James H Dawahare, Trung Dung Nguyen, Yang Lin, Sherry L. Voytik-Harbin, Pinar Zorlutuna, Mervin E Yoder, Joel D Boerckel

Absence of the Spindle Assembly Checkpoint restores mitotic fidelity upon loss of sister chromatid cohesion. Rui D Silva, Mihailo Mirkovic, Leonardo G Guilgur, Om S. Rathore, Rui Gonçalo Martinho, Raquel A Oliveira

Focal adhesion kinase regulates early steps of myofibrillogenesis in cardiomyocytes. Nilay Taneja, Abigail C Neininger, Matthew R Bersi, W David Merryman, Dylan T Burnette

Recruitment of Two Dyneins to an mRNA-Dependent Bicaudal D Transport Complex. Thomas E. Sladewski, Neil Billington, M. Yusuf Ali, Carol S. Bookwalter, Hailong Lu, Elena B. Krementsova, Trina A. Schroer, Kathleen M. Trybus

RNA-directed activation of cytoplasmic dynein-1 in reconstituted transport RNPs. Mark A McClintock, Carly I Dix, Christopher M Johnson, Stephen H McLaughlin, Rory J Maizels, Ha Thi Hoang, Simon L Bullock

Dynein-2 intermediate chains play crucial but distinct roles in primary cilia formation and function. Laura Vuolo, Nicola L Stevenson, Kate Heesom, David J Stephens

Regulator of calcineurin-2 is a centriolar protein with a role in cilia length control. Nicola Stevenson, Dylan Bergen, Amadeus Xu, Emily Wyatt, Freya Henry, Janine McCaughey, Laura Vuolo, Chrissy Hammond, David Stephens

Actin and Src-family kinases regulate nuclear YAP1 and its export. Nil Ege, Anna M Dowbaj, Ming Jiang, Michael Howell, Robert P Jenkins, Erik Sahai

Rotational 3D mechanogenomic Turing patterns of human colon Caco-2 cells during differentiation. Gen Zheng, Alexandr A. Kalinin, Ivo D. Dinov, Walter Meixner, Shengtao Zhu, John W. Wile

Collagen stiffness modulates MDA-MB231 cell metabolism through adhesion-mediated contractility. Emma J. Mah, Gabrielle E. McGahey, Albert F. Yee, Michelle A. Digman

Tunable molecular tension sensors reveal extension-based control of vinculin loading. Andrew S LaCroix, Andrew D Lynch, Matthew E Berginski, Brenton D Hoffman

CLIC4 is regulated by RhoA-mDia2 signaling through Profilin-1 binding to modulate filopodia length. Elisabetta Argenzio, Katarzyna M Kedziora, Leila Nahidiazar, Tadamoto Isogai, Anastassis Perrakis, Kees Jalink, Wouter H Moolenaar, Metello Innocenti

Shugoshin is essential for meiotic prophase checkpoints in C. elegans. Tisha Bohr, Christian R. Nelson, Stefani Giacopazzi, Piero Lamelza, Needhi Bhalla

Shugoshin protects centromere pairing and promotes segregation of non-exchange partner chromosomes in meiosis. Luciana Previato, Emily L Kurdzo, Craig A Eyster, Mara N Gladstone, Hoa H Chuong, Elena Llano, Alberto M Pendas, Roberto J Pezza, Dean S Dawson

A positive feedback-based mechanism for constriction rate acceleration during cytokinesis in C. elegans. Renat Khaliullin, Rebecca Green, Linda Shi, Michael Berns, J. Sebastian Gomez-Cavazos, Arshad Desai, Karen Oegema

Cell-matrix adhesion controls Golgi organization and function by regulating Arf1 activation in anchorage-dependent cells. Vibha Singh, Chaitanya Erady, Nagaraj Balasubramanian

Modelling

Spatial dynamics of flower organ formation. Yuriria Cortes Poza, Pablo Padilla Longoria, Elena Alvarez Buylla

Mathematical modelling of cortical neurogenesis reveals that the founder population does not necessarily scale with neuronal output. Noemi Picco, Fernando Garcia-Moreno, Thomas Woolley, Philip Maini, Zoltan Molnar

From jamming to collective cell migration through a boundary induced transition. Oleksandr Chepizhko, Maria Chiara Lionetti, Chiara Malinverno, Giorgio Scita, Stefano Zapperi, Caterina A. M. La Porta

Stochastic simulation of pattern formation in growing tissue: a multilevel approach. Stefan Engblom

Self-organization principles of intracellular pattern formation. Jacob Halatek, Fridtjof Brauns, Erwin Frey

Modeling cell-substrate de-adhesion dynamics under fluid shear. Renu Maan, Gautam I Menon, Pramod A Pullarkat

Theory of Morphogenesis. Andrey Minarsky, Nadya Morozova, Robert Penner, Christophe Soule

A mathematical model of the metabolism of a cell. Self-organization and chaos. V.I. Grytsay, I.V. Musatenko

Transition State Characteristics During Cell Differentiation. Rowan Brackston, Eszter Lakatos, Michael P.H. Stumpf

Riding the Cell Jamming Boundary: Geometry, Topology, and Phase of Human Corneal Endothelium. Nigel H Brookes

Stochasticity of cellular growth: sources, propagation and consequences. Philipp Thomas, Guillaume Terradot, Vincent Danos, Andrea Weisse

Statistical Inference in Cell Lineage Trees. Damien G Hicks, Terence P Speed, Mohammed Yassin, Sarah M Russell

Generative adversarial networks uncover epidermal regulators and predict single cell perturbations. Arsham Ghahramani, Fiona M Watt, Nicholas M Luscombe

Information Isometry Technique Reveals Organizational Features in Developmental Cell Lineages. Bradly John Alicea, Thomas E. Portegys, Richard Gordon

In silico mechanobiochemical modeling of morphogenesis in cell monolayers. Bahador Marzban, Xiao Ma, Xiaoliang Qing, Hongyan Yuan

Noise-driven Cell Differentiation and the Emergence of Organization. Hadiseh Safdari, Ata Kalirad, Cristian Picioreanu, Rouzbeh Tusserkani, Bahram Goliaei, Mehdi Sadeghi

Tools & resources

| Imaging etc.

Long-term live imaging of the Drosophila adult midgut reveals real-time dynamics of cell division, differentiation, and loss. Judy Martin, Erin Nicole Sanders, Paola Moreno-Roman, Shruthi Balachandra, XinXin Du, Leslie Ann Jaramillo Koyama, Lucy Erin O’Brien

Application of the Mesolens for sub-cellular resolution imaging of intact larval and whole adult Drosophila. Gail McConnell, William B. Amos

Brain Development: Machine Learning Analysis Of Individual Stem Cells In Live 3D Tissue. Martin Hailstone, Lu Yang, Dominic Waithe, Tamsin J. Samuels, Yoav Arava, Tomasz Dobrzycki, Richard M. Parton, Ilan Davis

Multidirectional digital scanned light-sheet microscopy enables uniform fluorescence excitation and contrast-enhanced imaging. Adam K Glaser, Ye Chen, Chengbo Yin, Linpeng Wei, Lindsey Barner, Nicholas Reder, Jonathan Liu

Forget Pixels: Adaptive Particle Representation of Fluorescence Microscopy Images. Bevan L. Cheeseman, Ulrik Günther, Mateusz Susik, Krzysztof Gonciarz, Ivo F. Sbalzarini

Image-based methods for phenotyping growth dynamics and fitness in Arabidopsis thaliana. Francois Vasseur, George Wang, Justine Bresson, Rebecca Schwab, Detlef Weigel

Mid-infrared optoacoustic microscopy with label-free chemical contrast in living cells and tissues. Miguel A. Pleitez, Asrar Ali Khan, Josefine Reber, Andriy Chmyrov, Markus Seeger, Marcel Scheideler, Stephan Herzig, Vasilis Ntziachristos

High Numerical Aperture Epi-illumination Selective Plane Illumination Microscopy. Bin Yang, Yina Wang, Siyu Feng, Veronica Pessino, Nico Stuurman, Bo Huang

Imaging the Developing Heart: Synchronized Timelapse Microscopy During Developmental Changes. Carl J. Nelson, Charlotte Buckley, John J. Mullins, Martin A. Denvir, Jonathan Taylor

4D blood flow mapping using SPIM-microPIV in the developing zebrafish heart. Vytautas Zickus, Jonathan M. Taylor

Quantitative mapping of fluorescently tagged cellular proteins using FCS-calibrated four dimensional imaging. Antonio Z Politi, Yin Cai, Nike Walther, M. Julius Hossain, Birgit Koch, Malte Wachsmuth, Jan Ellenberg

ChromoTrace: Reconstruction of 3D Chromosome Configurations by Super-Resolution Microscopy. Carl Barton, Sandro Morganella, Oeyvind Oedegaard, Stephanie Alexander, Jonas Ries, Tomas Fitzgerald, Jan Ellenberg, Ewan Birney

Estimating numbers of fluorescent molecules in single cells by analysing fluctuations in photobleaching. Elco Bakker, Peter S. Swain

Using Deep Learning for Segmentation and Counting within Microscopy Data. Carlos X. Hernández, Mohammad M. Sultan, Vijay S. Pande

High-quality ultrastructural preservation using cryofixation for 3D electron microscopy of genetically labeled tissues. Tin Ki Tsang, Eric A Bushong, Daniela Boassa, Junru Hu, Benedetto Romoli, Sebastien Phan, Davide Dulcis, Chih-Ying Su, Mark H Ellisman

| Genome tools

In vivo CRISPR-Cas gene editing with no detectable genome-wide off-target mutations. Pinar Akcakaya, Maggie L. Bobbin, Jimmy A. Guo, Jose Malagon Lopez, M. Kendell Clement, Sara P. Garcia, Mick D. Fellows, Michelle J. Porritt, Mike A. Firth, Alba Carreras, Tania Baccega, Frank Seeliger, Mikael Bjursell, Shengdar Q. Tsai, Nhu T. Nguyen, Roberto Nitsch, Lorenz Mayr, Luca Pinello, Mohammad Bohlooly-Y, Martin J. Aryee, Marcello Maresca, J. Keith Joung

No unexpected CRISPR-Cas9 off-target activity revealed by trio sequencing of gene-edited mice. Vivek Iyer, Katharina Boroviak, Mark Thomas, Brendan Doe, Edward Ryder, David Adams

On the design of CRISPR-based single cell molecular screens. Andrew J Hill, José L McFaline-Figueroa, Lea M Starita, Molly J Gasperini, Kenneth A Matreyek, Jonathan Packer, Dana Jackson, Jay Shendure, Cole Trapnell

Highly efficient CRISPR/Cas9-mediated tissue specific mutagenesis in Drosophila. Amy R Poe, Bei Wang, Maria L Sapar, Hui Ji, Kailyn Li, Tireniolu Onabajo, Rushaniya Fazliyeva, Mary Gibbs, Yue Qiu, Yuzhao Hu, Chun Han

Heterochromatin delays CRISPR-Cas9 mutagenesis but does not influence repair outcome. Eirini M Kallimasioti-Pazi, Keerthi Thelakkad Chathoth, Gillian C Taylor, Alison Meynert, Tracy Ballinger, Martijn J Kelder, Sebastien Lalevee, Ildem Sanli, Robert Feil, Andrew J Wood

Machine learning of stem cell identities from single-cell expression data via regulatory network archetypes. Patrick S. Stumpf, Ben D. MacArthur

Rapid low-cost assembly of the Drosophila melanogaster reference genome using low-coverage, long-read sequencing. Edwin A. Solares, Mahul Chakraborty, Danny E. Miller, Shannon Kalsow, Kate E. Hall, Anoja G. Perera, J.J. Emerson, R. Scott Hawley

High-quality genome assemblies of 15 Drosophila species generated using Nanopore sequencing. Danny E. Miller, Cynthia Staber, Julia Zeitlinger, R. Scott Hawley

Multiple laboratory mouse reference genomes define strain specific haplotypes and novel functional loci. Jingtao Lilue, Anthony G Doran, Ian T Fiddes, Monica Abrudan, Joel Armstrong, Ruth Bennett, William Chow, Joanna Collins, Anne Czechanski, Petr Danecek, Mark Diekhans, Dirk-Dominic Dolle, Matt Dunn, Richard Durbin, Dent Earl, Anne Ferguson-Smith, Paul Flicek, Jonathan Flint, Adam Frankish, Beiyuan Fu, Mark Gerstein, James Gilbert, Leo Goodstadt, Jennifer Harrow, Kerstin Howe, Mikhail Kolmogorov, Stefanie Koenig, Chris Lelliott, Jane Loveland, Richard Mott, Paul Muir, Fabio Navarro, Duncan Odom, Naomi Park, Sarah Pelan, Son K Phan, Michael Quail, Laura Reinholdt, Lars Romoth, Lesley Shirley, Cristina Sisu, Marcela Sjoberg-Herrera, Mario Stanke, Charles Steward, Mark Thomas, Glen Threadgold, David Thybert, James Torrance, Kim Wong, Jonathan Wood, Fengtang Yang, David J Adams, Benedict Paten, Thomas M Keane

Programmable single and multiplex base-editing in Bombyx mori using RNA-guided cytidine deaminases. Qingyou Xia, Yufeng Li, Sanyuan Ma, Le Sun, Tong Zhang, Jiasong Chang, Wei Lu, Xiaoxu Chen, Yue Liu, Xiaogang Wang, Run Shi, Ping Zhao

A modular dCas9-SunTag DNMT3A epigenome editing system overcomes pervasive off-target activity of direct fusion dCas9-DNMT3A constructs. Christian Pflueger, Dennis Tan, Tessa Swain, Trung Viet Nguyen, Jahnvi Pflueger, Christian Nefzger, Jose M Polo, Ethan Ford, Ryan Lister

Addressing the looming identity crisis in single cell RNA-seq. Megan Crow, Anirban Paul, Sara Ballouz, Z. Josh Huang, Jesse Gillis

Enhancing resolution of natural methylome reprogramming behavior in plants. Robersy Sanchez, Xiaodong Yang, Hardik Kundariya, Jose Raul Barreras, Yashitola Wamboldt, Sally Mackenzie

Verified the effectiveness of AsCpf1 system in a variety of vertebrate species. Zhuo Li, Zhaoying Shi, Nana Fan, Yongqiang Chen, Jing Guo, Jingchun Wu, Hong Song, Shilong Chu, Kunlun Mo, Bentian Zhao, Zhen Ouyang, Dandan Tian, Shaoyang Zhao, Jieying Zhu, Jiekai Chen, Yonglong Chen, Liangxue Lai, Duanqing Pei

CRISPR-DT: designing gRNAs for the CRISPR-Cpf1 system with improved target efficiency and specificity. Houxiang Zhu, Chun Liang

CONSTRUCTION OF WHOLE GENOMES FROM SCAFFOLDS USING SINGLE CELL STRAND-SEQ DATA. Mark Hills, Ester Falconer, Kieran O’Neil, Ashley Sanders, Kerstin Howe, Victor Guryev, Peter M Lansdorp

Cas-CLIP: a method for customizing pooled CRISPR libraries. Jiyeon Kweon, Da-eun Kim, An-Hee Jang, Yongsub Kim

TOGGLe, a flexible framework for easily building complex workflows and performing robust large-scale NGS analyses. Christine Tranchant-Dubreuil, Sebastien Ravel, Cecile Monat, Gautier Sarah, Abdoulaye Diallo, Laura Helou, Alexis Dereeper, Ndomassi Tando, Julie Orjuela-Bouniol, Francois Sabot

An Interpretable Framework for Clustering Single-Cell RNA-Seq Datasets. Jesse M Zhang, Jue Fan, H. Christina Fan, David Rosenfeld, David N. Tse

Research practice & education

Gender balance in time-keeping at life science conferences. Petra Edlund, Erin M Tranfield, Vera van Noort, Karen Siu Ting, Sofia Tapani, Johanna Hoog

Building a local community of practice in scientific programming for Life Scientists. Sarah L.R. Stevens, Mateusz Kuzak, Carlos Martinez, Aurelia Moser, Petra M. Bleeker, Marc Galland

The impact on authors and editors of introducing Data Availability Statements at Nature journals. Rebecca Grant, Iain Hrynaszkiewicz

Intellectual Synthesis in Mentorship Determines Success in Academic Careers. Jean F Lienard, Titipat Achakulwisut, Daniel E Acuna, Stephen V David

Reproducible big data science: A case study in continuous FAIRness. Ravi K Madduri, Kyle Chard, Mike D’Arcy, Segun C Jung, Alexis Rodriguez, Dinanath Sulakhe, Eric W Deutsch, Cory Funk, Ben Heavner, Matthew Richards, Paul Shannon, Ivo Dinov, Gustavo Glusman, Nathan Price, John D Van Horn, Carl Kesselman, Arthur W Toga, Ian Foster

Twenty steps towards an adequate inferential interpretation of p-values. Norbert Hirschauer​, Sven Grüner​, Oliver Mußhoff, Claudia Becker

Sci-Hub provides access to nearly all scholarly literature. Daniel S Himmelstein, Ariel R Romero, Jacob G Levernier, Thomas A Munro, Stephen R McLaughlin, Bastian Greshake Tzovaras, Casey S Greene

Sharing is not erring: Pseudo-reciprocity in collective search. Imen Bouhlel, eCharley M. Wu, Nobuyuki Hanaki, Robert L. Goldstone

Why not…

FGF21, a liver hormone that inhibits alcohol intake in mice, increases in human circulation after acute alcohol ingestion and sustained binge drinking at Oktoberfest. Susanna Soeberg, Emilie S. Andersen, Niels B. Dalgaard, Ida Jarlhelt, Nina L. Hansen, Nina Hoffmann, Tina Vilsboell, Anne Chenchar, Michal Jensen, Trisha J. Grevengoed, Sam A.J. Trammell, Filip K. Knop, Matthew P. Gillum

Biomechanics of the peafowl’s crest: a potential mechanosensory role for feathers during social display. Suzanne Amador Kane, Daniel Van Beveren, Roslyn Dakin

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A NIH-funded postdoctoral position is available as early as April 1st in the laboratory of Katherine Fantauzzo in the Department of Craniofacial Biology at the University of Colorado Anschutz Medical Campus to study the in vivo dynamics of PDGFR dimer-specific formation and the resulting effects on gene expression and cell activity during mouse craniofacial development. This project will utilize an array of complementary approaches such as bimolecular fluorescence complementation, mass spectrometry and conditional mutagenesis in the mouse embryo, with the ultimate goal of providing therapeutic directions aimed at the treatment of human birth defects such as cleft lip and palate. We are seeking highly motivated, creative and interactive applicants with the ability to work independently. Preference will be given to applicants with a strong background in biochemistry and/or mouse developmental biology who published a first-author paper as a result of their Ph.D. work. More information about our group and research interests can be found on our laboratory website (http://www.fantauzzolab.org). Interested candidates should apply through the CU careers website (https://cu.taleo.net/careersection/2/jobdetail.ftl?job=12799&lang=en) with a letter of interest, a curriculum vitae and contact information for three professional references.

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How do cells give rise to the functional architecture of the brain? This is no longer a neuroscience-only question. Indeed, it is a cellular, genetic, developmental, mechanical, and material problem that requires experts from all of these disciplines working together to understand how the brain works! Yet, from this architectural design perspective, it is very hard to unite the leaders in these distinct fields of research to find an answer to this complex problem. Excitingly, this was exactly what happened at the Company of Biologists workshop entitled “Thinking beyond the dish: taking in vitro neural differentiation to the next level” organized by Madeline Lancaster and Denis Jabaudon. As some of the early-career researchers invited to participate, we each provide our perspectives on this amazing workshop and we are extremely grateful to the organizers and the Company of Biologists for putting this together.

GUILLERMO GOMEZ
Group Leader, Centre for Cancer Biology, SA Pathology and the University of South Australia

Being myself a mechano-biologist, I was very excited about the brain organoids developed by Madeline Lancaster and Jürgen Knoblich and I became more curious on what would be next, what is the future of this technology, something that seems is becoming closer to science fiction. This was the key layout for this meeting: Thinking “beyond” the dish…., which by far exceeded my expectations.

The meeting was small but excellent. We had great talks on how we can create different types of materials to manipulate almost all class of its properties, and now, more excitingly, doing it precisely in space and time, to control cell behavior. We had also geneticists who show how single cell transcriptomics allows the creation of “expression trees” that link all the different cells that form these minibrains and described the genetic network architectures that contribute to the robustness of brain development in the early mammalian embryo (so everyone looks similar during gestation) but which then diversifies when we become more mature (so everyone looks different later). It was also really exciting how using this technology now it is possible to establish neural circuits based on organoids and also how these could contribute, for example, to the restoration of brain tissue to improve recovery in brain cancer patients after the resection of the tumor.

But where do we go now? We discussed it a lot through this meeting and my feeling is that we are still far from being able to integrate all these aspects because of its complexity and some limitations of the approach, to be able to make entire brains in the dish. But we are seeing the light on this technology to understand in a more physiologically relevant setting the fundamentals of the brain architecture and how is it affected in different type of diseases, for which strong interdisciplinary interactions are crucial. This meeting has seeded the grounds to be able to do it and gave me the chance to meet the leaders in these interdisciplinary areas, which has really fueled me with ideas and new perspectives about this problem. This is exactly what I needed at this very early stage of my independent career.

CRISTIANA CRUCEANU
Postdoctoral Fellow, Max Planck Institute of Psychiatry, Munich, Germany.

I first became aware of the Company for Biologists workshops at the recommendation of one of my mentors, who suggested I would really enjoy the topic – and the format. She was right. If selected, I could have one of 10 coveted early-career scientist spots, and join 20 senior thought leaders in my field to learn about the latest research, discuss future directions, and potentially build collaborations. So I put in an application for the workshop entitled “Thinking beyond the dish: taking in vitro neural differentiation to the next level”, and got to attend from 4 – 7 February 2018. For a psychiatric geneticist looking to update our available in vitro model systems for the human brain using organoids, this seemed just perfect.

I was quite thrilled to test my research and ideas with a topically diverse audience, yet intimately focused on one important topic. How can cerebral organoids, one of the most promising developments of recent years, achieve the status of ‘workhorse of neuroscience’? I credit the organizers, Denis Jabaudon and Madeline Lancaster, for bringing together an eclectic group of scientists and engineers who covered the spectrum from neurodevelopment to bioengineering to psychiatry. The talks were wonderful for laying out the complex problem ahead, and the strides currently being made toward addressing it. The venue – a historical stately manor named Wiston house cradled between rolling green hills occupied by sheep (even in February!) – provided the perfect familiarity to foster discussion and exchange of ideas that would lead to collaborations worthy of speeding up discovery and innovation.

After 4 days of intense learning, exquisite meals, and stimulating discussions over drinks, I left inspired and motivated. I feel confident that cerebral organoids will be exponentially improved in the coming years, leading to tremendous advances of our understanding of uniquely-human brain development and its response to environmental perturbation. For a molecular biologist focused on understanding the brain and mental illness, this is an exciting time.

MUKUL TEWARY
PhD Student, University of Toronto, Toronto, Ontario, Canada

When I read about this workshop being organized by the Company of Biologists on their website, I immediately sent in an application to attend it. My project deals with developing in vitro models of early development using bioengineering technologies. Although, my graduate studies have focused mostly on investigating the induction of mesendodermal tissues, our latest results have diverted my research interests toward studying the ectodermal lineages including the early specification of neural fates. Given that this workshop was focused on in vitro models of neural fates, and that it gave the attendees opportunities to network with the key opinion leaders in the field, I was extremely excited when I was given the chance to attend it.

This workshop far exceeded all my expectations. First and foremost, the organization of the workshop was exceptional! In terms of the content, I truly enjoyed hearing about the extent of progress that has been made in the field of neural organoids. The format that the organizers had chosen included a daily discussion group where the group discussed concerns that the field has and where they think the field is headed. As an early career scientist, I found these sessions incredibly valuable. Notably, one of the scientific concerns that seemed to be prevalent amongst the group was the variability between different pluripotent stem cell lines in generating the downstream organoids. An important aspect of our latest study deals with this very issue and I was very excited to hear that the key opinion leaders in the field are also looking into the same questions.
Overall, this workshop is one of the best meetings I’ve attended, and I would highly recommend these Company of Biologists workshops to everyone but especially to early career scientists.

MIKE FERGUSON
MS student, Biomedical Engineering, Boston University, USA

Between the 3, or was it 5 or 6?, course meals, there was indeed great science being discussed! With armfuls (quite literally) of beers being consumed in the “cozy” backroom, great collaborations were set up well past midnight. Set in a victorian mansion, replete with a full time staff, including a most scholarly house historian, this workshop was truly an experience. If you ever wondered what it would be like to be a member of British high society like Barry Lyndon, look no further.

Biologists talking with engineers was the theme. Despite being an engineer and biologist myself, I was exposed to new ideas and ways of thinking nonetheless. For example, what is development? Is it self-assembly or self-organization? Is it special? The most brief of side conversations offered some of the most interesting ideas. Ideas that kept me thinking well after the workshop and have already caused me to take a fresh look at my own work, with good results.

Perhaps the most unique (and truly invaluable) aspect of the workshop was its laid back nature. Participants were encouraged to present unpublished data (non-disclosure was assured). In many ways, it was like a big informal lab meeting. For the young scientists, the workshop is a unique chance to make your name known and your ideas heard. It was a most interesting look into the future, for which I thank the organizers.

All in all, I left disappointed – this being my first real conference that I have attended, all future conferences and workshops are likely to pale in comparison. How many of them will have staff constantly offering you a cup of tea or coffee (an assortment of treats already laid out in the adjacent parlor)?

SAM NAYLER
Postdoctoral Fellow, Department of Physiology, Anatomy and Genetics, University of Oxford, Oxford, UK

What do you get when you take a group of developmental biologists, chemists, bioengineers and neuroscientists away from their daily routines in the lab and put them together in a countryside manor near Brighton, England? The answer is not the punchline to a joke, but instead a seriously productive three days full of introspection and discussion of the pressing issues facing the respective field that unites the interested parties.

The Company of Biologists and conference organisers should be commended on their excellent approach to realizing the formula for a smooth and seamless meeting where inhibitions and impediments to open discussion are rapidly dissolved and a vibrant exchange of ideas and information takes their place. Despite the very formal setting, people were rapidly acquainted and exchanging information and ideas for collaboration. Combined with the fact that everyone presented, and everyone presented unpublished work, allowed for an open and frank forum for discussion. The exposure to fields outside one’s own was an excellent way to survey the current state of play in that field and germinate ideas for collaboration which were later crystallised over a drink in the bar or a walk (or run) in the woods.

There is a proverb that says it takes a village to raise a child. While there is a rich history of developmental biology, the emerging field that uses stem cell science to explore aspects of tissue formation is very much in its infancy, and indeed requires the specialist inputs from the ‘village’ as a whole. To be surrounded by bright, talented and enthusiastic bioinformaticians, biologists and engineers, all of whom have at least temporarily assembled as a village makes me very optimistic about the future of the field going forwards.

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Please note that a PhD studentship is still available in Claudio Stern’s lab. See previous post here:

Studentship available in Claudio Stern’s lab

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A PhD studentship is available in Dr. Claudia Barros’ group, Peninsula School of Medicine, Plymouth University, UK. The project is devoted to characterise the role of novel candidate genes in brain tumour initiation identified in the laboratory. It will focus on investigating pathways acting in mitochondria, the cells’ power plants, but it is not restricted to it. Drosophila will be used to examine candidate genes in the conversion of normal neural stem lineage cells into brain tumour initiation cells via gain and loss of function assays, providing a unique opportunity to unravel their role in live brains at single-cell resolution. Translation of findings will be performed using glioma tumour samples and patient-derived glioblastoma stem cell lines.

We are looking for a candidate with experience in genetics, molecular biology, immunohistochemistry, cell culture, biochemistry and/or confocal imaging. A high interest in neural stem cell and brain tumour biology is a must. Applications are invited from qualified graduates (1^st class or 2:1, equivalent), and preferably a relevant Masters or extended laboratory research experience. International students must have an IELTS score of min 7.0 (with no less than 6.5 in any element).

For further information regarding the project, please contact Dr. Claudia Barros (claudia.barros@plymouth.ac.uk). Applications must be made in accordance with the details shown below.

Funding Notes:
The studentship is supported for 3 years and includes full Home/EU tuition fees plus a stipend of £14,553 per annum.  The studentship will only fully fund those applicants who are eligible for Home/EU fees with relevant qualifications.  Applicants required to cover overseas fees will have to cover the difference between the Home/EU and the overseas tuition fee rates. For the 17/18 academic year the difference in fee is £10350. If you are selected you will be required to provide financial assurances.

To Apply:

Follow the link https://www.plymouth.ac.uk/student-life/your-studies/the-graduate-school/applicants-and-enquirers and click ‘Apply Now’ to access the application form.  Please mark the application for the attention of Francesca Niedzielski. Please Note:  you do not need to submit a project proposal with your application.

For questions on the admissions process contact pupsmd-researchdegreesadmissions@plymouth.ac.uk  

Closing date for applications is 29th April 2018. 

Shortlisted candidates will be invited for interview. We regret that we may not be able to respond to all applications.  Applicants who have not received an offer of a place by end of May 2018 should consider their application has been unsuccessful on this occasion.

Reference number: PUPSMD-17-18-014

Start date: 1st October 2018

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The story behind our paper: Yekaterina A. Miroshnikova*, Huy Q. Le*, David Schneider*, Torsten Thalheim, Matthias Rübsam, Nadine Bremicker, Julien Polleux, Nadine Kamprad, Marco Tarantola, Irène Wang, Martial Balland, Carien M. Niessen, Joerg Galle & Sara A. Wickström. Adhesion forces and cortical tension couple cell proliferation and differentiation to drive epidermal stratification. Nature Cell Biology 20, p69–80 (2018)

Skin is a fascinating organ that dynamically adjusts its size throughout our lifetimes and does so perfectly while, at the same time, acting as a robust bi-directional barrier protecting us from the insults of the outside world. Of particular interest is the epidermis, which is the outermost, barrier- and load-bearing layer of the skin. Every time we bend our fingers, undergo cycles of weight loss or gain, or are a subject to life-altering events, such as pregnancy, the epidermis has to shrink, expand, and withstand various amounts of tension while still maintaining integrity! From a point of view of an engineer, skin is a marvel – how can this be? What is the structure of this stunning tissue allowing it to perform the many functions that it has?

The epidermis is a highly ordered, multi-layered stratified epithelium. The bottom-most sheet is a tightly packed layer of proliferating stem cells attached to both the underlying matrix as well as to the cells of the terminally differentiated, postmitotic suprabasal layer. Upon differentiation, cells delaminate from the basal stem cell layer and move upwards, filling the many layers of the skin. During this upward motility, the cells need to maintain tight cell-cell junctions in order not to compromise the barrier function of this epithelium. When reaching the most superficial layer, the cells lose their nuclei and dye, forming the dead cornified layer, from where the cells are slowly sloughed off. This turnover is quite rapid, and the entire epithelium is fully renewed every 7-10 days.

The basal layer is the hotspot of most of this activity in the epidermis where some stem cells divide and continue residing within the layer while others differentiate, delaminate, move upwards, and eventually die. In the homeostatic state, epidermis must maintain a constant tissue size and this means a relatively constant basal cell number. Intuitively, the rate of proliferation then must equal to the rate of departure and delamination of the differentiating cells. On a population-level this behavior is completely logical, but the decision-making occurs on cellular level. Then, what are the drivers of cellular fate decisions within a tissue and how do cells coordinate their cell fate with their position? This is the exactly the question that we tackled in our recent publication! It turned out that it is all about differential cell and tissue mechanics!

Let the force guide you – how to robustly couple position with fate

It is intuitively apparent why one may think about external forces, such as compression and tension, in the context of the basal layer of the epidermis as it is an incredibly crowded and mechanically-loaded tissue. It is also instinctive to consider differential cellular tension in the context of cellular extrusion as we now from ample developmental biology literature that cell sorting is largely based on differential cortical tension. To put it simply, it would be more likely for a soft cell to squeeze upwards from a tightly jammed space than it would be for a stiff one. Thus, we started off with the very basic hypothesis that differential cell mechanics would be an excellent cue guiding cells to either remain within the crowded layer or change their position and move upwards. This was especially compelling in the context of highly mitotic areas with highly elevated lateral cellular compression and cell shape deformation. Our hypothesis was that crowding could alter cell shape and cortical tension. Thus, the first question that we asked was whether there was mechanical difference between cells that start differentiating versus ones that remain stem cells within the basal layer. Using atomic force microscopy we observed a biphasic evolution of cortical tension of differentiating cells, where initially upon differentiation cells indeed became softer as they made the decision to detach from the layer and, upon successful escape from the basal layer, they became stiffer, while at the same time changing their adhesion profiles. By measuring adhesion forces we further realized that the more differentiated the cell, the stronger the cell-cell adhesion forces. This was exciting as it suggested that indeed cell fate changes were accompanied by changes in cell mechanics. It further suggested that perhaps the differentiated cell was not only being squeezed out of the stem cell layer, it could also be partially pulling itself out using the strong cell-cell adhesion forces.

The path to finding answers: when physics meets cell biology

The next step was to ask the classical chicken-and-egg question of what comes first. Does the altered cell mechanics trigger differentiation or does differentiation trigger altered cell mechanics. To this end, we utilized a compression bioreactor as well as micro-patterned surfaces to precisely control crowding and cell shape anisotropy. The answers provided by these experiments made the engineers working on the project quite ecstatic as by artificially inducing crowding or restricting cell adhesion area and forcing cells to assume anisotropic shapes we were able to sufficiently to trigger differentiation. In addition, crowding was further, not surprisingly, sufficient to alter cell mechanics. So indeed, the stem cell layer crowding state seemed to control cell fate, and the cell fate change was coupled to a change in cell mechanics, providing an elegant mechanisms by which the tissue could monitor and react the changes in cell density as well as to couple cell fate to positioning.
As all of the initial observations were done using various in vitro manipulations, we subsequently turned to in vivo imaging of whole embryos to ensure that the in vitro principles are conserved and relevant to the state of the epidermis in vivo. Upon careful visual inspection of the in vivo epidermis, it was immediately apparent that the basal layer existed in a solid-like, jammed state. Interestingly, we subsequently noted that jamming coincided with the onset of delamination in our in vitro monolayers, implying that delamination of differentiating cells could be a specific feature of jammed epithelia. The biological effects of these imaging experiments were clear but their quantification was a bit more of a challenge that we overcame via a fruitful collaboration with Dr. Irene Wang and Dr. Martial Balland from Grenoble, France that allowed us to model tissue strains and monolayer flows in a quantitative manner.

Finally, it was important to test whether crowding-induced stochastic decrease of cortical tension coupled to increased cell-cell adhesion was sufficient to induce delamination. This was challenging, as any chemical or genetic perturbation would affect the mechanics of all cells, whereas we needed to induce mechanical heterogeneity. So to get an initial hint that we were really on to something relevant, we initiated an collaboration with Dr. Joerg Galle and Dr. Torsten Thalheim from Leipzig, Germany who had in the past beautifully simulated intestinal stem cell homeostasis in silico. They set out to simulate monolayer crowding, where increasing cell density through proliferation would, as shown by our experiments, reduce cell surface area, reduce cortical tension and increase cell-cell adhesion.

As a matter of fact, we were blown away by the results that the system maintained epidermal homeostasis at rates comparable to what had previously been observed using live imaging of intact epidermis of mice, and was completely buffered against changes in proliferation rates within the basal layer. Further, only cells with low cortical tension and high cell-cell adhesion delaminated, showing that this could indeed be an extremely robust mechanism to couple cell fate with position. We further went on to validate key aspects of the model by cell mixing experiments in epidermal organotypic cultures, where we observed that single E-cadherin-deficient cells, that showed lower cell-cell adhesion forces and high cortical tension, had severely compromised ability to delaminate, even if they had terminally differentiated.
Taken together, we conclude that individual cells tune their fates based on the activities of the neighboring cells, and by changing their mechanical properties as part of this fate switch, change their position within the tissue. This is quite remarkable, and we are now thinking about the implications of this phenomenon in terms of tissue pathologies. For example, recent findings by the lab of Dr. Phil Jones demonstrated that sun-exposed skin of healthy individuals contains clonal patches of cells with cancer-causing mutations such as mutations in Ras, but these clones co-exist with normal cells without any perturbations to the physiological functions or structure of the epidermis. Our skin is seems thus to be buffered against perturbations such as local differences in proliferative activity or differentiation rates.
I am grateful for having had the chance to work together in a fantastic team of engineers, physicists, biochemists, and cell biologists and am particularly proud to have been leading a study that employed such a wide spectrum of techniques from in vivo imaging of whole organisms to developing new quantitative algorithms and agent-based simulations to explore and understand the wonders of biology.

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This editorial by Katherine Brown and Olivier Pourquié was published in Development on 22/02/18.

We are excited to announce the launch of preLights (https://prelights.biologists.com/), a new service from The Company of Biologists. preLights is a community platform for selecting, highlighting and commenting on recent preprints from across the biological sciences. With this service, we aim to help researchers discover the most interesting and relevant preprints from the growing archive of manuscripts deposited on bioRxiv and other preprint servers.

So what is the rationale behind preLights, and how will it work? While preprints have been around for a long time in the physics community, it was only when bioRxiv (https://www.biorxiv.org/) came on the scene in late 2013 that they began to take off in the biological sciences. Since then, we have seen an almost exponential growth in the number of preprints posted, as more and more researchers recognise the value in making their research available at an early stage, and as journals become increasingly open to considering papers that have already been posted on a preprint server. Here at Development, we quickly changed our policy on preprint deposition after the launch of bioRxiv, and have allowed authors to submit papers that were already available on preprint servers since Spring 2014. Since early 2016, all of the Company’s journals have been open to considering manuscripts deposited as preprints. Not only that, but we actively facilitate posting of submitted manuscripts through our bidirectional transfer portal with bioRxiv (see http://dev.biologists.org/content/news#biorxiv for more details). Overall, The Company of Biologists and Development see a synergy between preprint servers and the more traditional peer review and publishing model we operate. Preprints allow authors to get their work out quickly and readers to access the latest research, pre-publication peer review helps to ensure the rigour and quality of the work, and publication in a field-specific journal like Development helps the community find and digest the most relevant research in their area in an accessible format.

Since 2016, our community blog the Node has played an active role in helping developmental biologists find the most relevant preprints – providing a monthly round-up of the latest preprints in developmental biology and related fields (see https://thenode.biologists.com/tag/preprints/). This initiative has proved hugely popular: the post is generally our most-read post each month, and many people have told us how valuable they find the listing. Moreover, the list is getting longer each month, and is in danger of becoming unwieldy, even with the careful curation from our community manager. Given these trends, we started thinking about what more we could do to help people to navigate the ever-growing preprint literature – across the range of fields covered by the Company’s journals.

From these discussions, the idea of preLights was born. At its heart, preLights is a community of around 80 researchers, mainly (but not exclusively) postdocs and early stage PIs, many of whom have been nominated by our editors or editorial board members. Their research interests span the range of fields covered by our journals and beyond – from morphogenesis to neuroethology, from autophagy to cancer immunology. Our preLights team members will be selecting each month the preprint or preprints that they feel most worthy of comment, and will provide a personal perspective on why they have chosen each article. Through our online platform, we also hope to encourage other members of the community to comment on those preprints selected by our team, and to engage the authors of the selected preprints in the discussion as well – thus facilitating the exchange of ideas and opinions. Hopefully, this will also help authors improve and revise their papers as they make their way towards formal publication. Although the platform has been designed and will be hosted by The Company of Biologists, we see preLights as a community-run service, where we provide logistical support, but the content is driven by our team of selectors and the broader community.

Posts will be categorised and tagged by topic to make it easy for you to search for those preprints most relevant to you, and we’ll also highlight the most popular posts across all fields to give you a flavour of the latest work that’s attracting attention. We’re also planning to feature content from the preLights site in the journal, further helping the developmental biology community to discover the newest research in the field. And to reassure those of you who have become used to browsing the Node’s monthly list, we’re not planning to stop doing this. Finally, an additional aim is to support and promote our team of selectors – giving them the platform and profile to get their opinions ‘out there’ and helping them to expand their networks, both within their specific fields and beyond.

We are of course aware that commenting on preprints and papers has not really taken off in a big way in the biological sciences. preLights is therefore something of an experiment, but we’ve been hugely encouraged by the enthusiasm with which the idea was met by those we approached as potential contributors. While we hope that preLights will provide a venue where such discussion can happen more freely, we also believe that there is significant value in the selection and highlighting of a subset of preprints that will be of particular interest to our communities. Over time, we expect that the preLights site, and the team of selectors, will evolve – and we welcome your suggestions and feedback on how we can make it better. For now, though, we invite you to browse the first set of posts on preLights and to join in the discussion there. We hope you find this new initiative valuable!

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Are you interested in applying mathematics, statistics or machine learning to biomedical problems? Apply now for a MRC WIMM Centre for Computational Biology Studentship, to start in October 2018.  The studentship is fully-funded for four years, including a stipend of £18,000 p.a. and all University and College fees paid.

The studentship is open to applicants with a background in Physics, Mathematics, Engineering, Statistics or Computer Science. To be eligible for a full award, applicants must have no restrictions on how long they can stay in the UK and must have been ordinarily resident in the UK for at least 3 years prior to the start of the studentship. Further details about residence requirements may be obtained here.

For further information on how to apply can be found here.

All applications must be received by 12 noon (UK time) on Friday, 23 March 2018.

Interviews will take place the week commencing 16 April 2018.

Projects

1. Mathematical and statistical modelling of the emergence of blood stem cells in embryonic development – Supervisors: Dr Ed Morrissey, Prof Marella de Bruijn and Prof Thomas Milne
2. Statistical and computational method development for understanding the effect of genetic variation on differentiation of hematopoietic cells – Dr Valentina Iotchkova (Statistical Genetics) & Prof Jim Hughes (Genome Biology)
3. Sequence-driven machine learning in genomics: towards the higher code of life – Supervisors: Dr Aleksandr Sahakyan and Prof Doug Higgs

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