In the final episode of the Human Developmental Biology Initiative’s podcast, hip-hop artist Aubz meets Oxford University scientist Shankar Srinivas and they discuss questions such as what is human developmental biology and why is it important?

At the end of the episode, the pair will write and record an original piece of music inspired by their meeting, exploring science in a brand new way.

“We speak of science as one thing, and it’s not. It’s many different things.”

– Shankar Srinivas

About the participants

Shankar is Professor of Developmental Biology at the University of Oxford, at the Department of Physiology Anatomy and Genetics, in the Institute for Developmental and Regenerative Medicine. His group uses mouse and human embryos to study how the body is shaped, and how the heart forms and starts to beat. Shankar is also passionate about science outreach and public engagement. His group participates regularly in science festivals, and collaborates with dancers, choreographers and Virtual Reality specialists to generate movement based art, to explore different perspectives on how the form of the body is determined.

Aubz is a Manchester-based hiphop artist.

Please subscribe and listen to Made the Same Way on Apple podcasts, Spotify, or wherever you get your podcasts. If you enjoy the podcast, please rate and review us on Apple podcasts to help others find us!

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On 31 May 2023, Development hosted a webinar on the topic of in vitro and stem cell-based models of development. Below are the talks and Q&As hosted by our Executive Editor, Katherine Brown.

Anchel de Jaime Soguero (COS, University of Heidelberg)

Elena Camacho Aguilar (Rice University)

Tyler Huycke (UCSF)

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One of the crowd-favourite giveaways here at the Node is our collection of postcards. With our supplies dwindling, we are planning to reprint some of the postcards, and take this opportunity to add some more #devbio favourites to our collection.

We ran a public vote for the Node postcard competition to select the top four images to be printed on new postcards. The image with the most votes will also be featured on the cover of a ‘Development’ issue in 2023.

We are now delighted to announce the results:

The winning image and the following images will be printed on new postcards:

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After a brief hiatus, Developing news is back. This round of Developing news includes the following:

• Mental health crisis in science
• It matters who does science
• preLights on #devbio

Mental health crisis in science

A mental-health crisis is gripping science — toxic research culture is to blame
Shannon Hall

This article summarises a series of recent studies around the mental health crisis in science and the toxic research culture behind it. What has been done to address these issues? What can universities, funders, and other academic institutions do to drive larger, systemic changes in research culture? How can we make better use of platforms like the Node to normalise talking about mental health?

https://twitter.com/DrPetra/status/1661077196117557262

The disturbing data and stories in this report make all the more important that @UKRI_News seizes the opportunity of the FRAP (Future of Research Assessment Programme) to create incentives for positive culture change. https://t.co/EUGqLx1N9s

— Stephen Curry (@Stephen_Curry) May 26, 2023

It matters who does science

It matters who does science
H. Holden Thorp

This editorial written by Science Editor-in-Chief H. Holden Thorp has resonated with many people on Twitter. There is still lots to do in order to build a scientific workforce that reflects the public it serves.

Take a look at what people think.

"Scientists should embrace their humanity rather than pretending they are a bunch of automatons who instantly reach perfectly objective conclusions." Fact is, it matters who does the science – as it determines how and what science gets done. https://t.co/CMptrB7tHL

— Dean Lola Eniola-Adefeso (@Lola_UIC) May 12, 2023

Yes, it matters who does science. And, I am adding, it also matters HOW we do science.

A massive work culture change is required. The cut throat competition needs to stop. The focus on individuals when they could not have achieved alone, needs to stop. https://t.co/5PV2iaBWS6

— Sho Jacobs (@shoshanahjacobs) May 13, 2023

"the public has been taught scientific insight occurs when old white guys run out of bathtubs shouting 'Eureka!'…That’s not how it works…scientists work in teams [who] share findings with other scientists who make more refinements" https://t.co/eSy0XUm3XZ

— Richard Sever (@cshperspectives) May 11, 2023

I think @hholdenthorp recent piece "It matters who does science." hits the nail on the head, "Scientists should embrace their humanity…" & part of that is working to meet basic needs of well being for the people that do the science. https://t.co/yA2QuZnZ9L

— Siegenthaler_Lab (@SiegenthalerLab) May 17, 2023

preLights posts on the latest #devbio preprints

A selection of preLights posts relevant to the Node readers. Head over to preLights to see what other recent preprints have been highlighted.

Laboratory evolution of flies to morphogen dosage via rapid maternal changes reveals predictable outcomes by Xueying C. Li et al.
To ‘big embryo’ (BE), or not to BE, that’s the question.
Selected by Girish Kale. Read the preLight here.

Coordinated growth of linked epithelia is mediated by the Hippo pathway by Sophia Friesen, Iswar K. Hariharan
Roses are red, violets are blue, when the disk proper grows, hippo stretches peripodial epithelium too.
Selected by Girish Kale. Read the preLight here.

Conserved Chamber-Specific Polyploidy Maintains Heart Function in Drosophila by Archan Chakraborty et al.
The importance of being in the right place, with the right ploidy, at the right time- and how not to mend broken hearts.
Selected by Anastasia Moraiti. Read the preLight here.

Insm1 regulates the development of mTECs and immune tolerance by Wehuai Tao et al.
A new player in establishing immune tolerance: How Insm1 regulates mTEC gene expression.
Selected by Marina Schernthanner and Jessica Chevallier. Read the preLight here.

Nutrient-regulated dynamics of chondroprogenitors in the postnatal murine growth plate by Takeshi Oichi et al.
Fasted bones grow fast later: chondroprogenitors in the growth plate of murine long bones adapt to dietary restriction, leading to catch-up growth during refeeding.
Selected by Alberto Rosello-Diez and Boya (Hannah) Zhang and Chee Ho H’ng. Read the preLight here.

Small leucine-rich proteoglycans inhibit CNS regeneration by modifying the structural and mechanical properties of the lesion environment by Julia Kolb et al.
Who is the culprit? Small leucine-rich proteoglycans inhibit axonal regrowth in the lesioned zebrafish spinal cord by changing the structure and mechanics of the extracellular matrix.
Selected by Laura Celotto. Read the preLight here.

The phosphodiesterase 2A regulates lymphatic endothelial development via cGMP-mediated control of Notch signaling by Claudia Carlantoni et al.
An essential function for the phosphodiesterase 2A during regulation of lymphatic vessel maturation.
Selected by Andreas van Impel and Sanjay Sunil Kumar. Read the preLight here.

A transcriptional and regulatory map of mouse somitogenesis by Ximena Ibarra-Soria et al.
Somitogenesis: common and divergent maturation programmes along the anteroposterior axis.
Selected by Sergio Menchero. Read the preLight here.

Bovine blastocyst like structures derived from stem cell cultures by Carlos A. Pinzón-Arteaga et al.
A new livestock embryo model from a self-renewing source.
Selected by Carly Guiltinan. Read the preLight here.

Mechanical forces across compartments coordinate cell shape and fate transitions to generate tissue architecture by Clémentine Villeneuve et al.
It takes two to tango: coordinated mechanical contributions from epithelium and dermal fibroblasts help break symmetry for downgrowth and fate patterns in mouse hair follicles.
Selected by Sudeepa Nandi. Read the preLight here.

A patterned human heart tube organoid model generated by pluripotent stem cell self-assembly by Brett Volmert et al.
A patterned human heart tube organoid model generated by pluripotent stem cell self-assembly.
Selected by Silvia Becca. Read the preLight here.

Gene complementation analysis suggests that dodder plants (Cuscuta spp.) do not depend on the host FT protein for flowering by Sina Mäckelmann et al.
Host-independent flowering of Cuscuta spp. reignites the search for a ‘Florigen’.
Selected by Gwendolyn K. Kirschner and Marc Somssich. Read the preLight here.

Plasmodesmal connectivity in C4 Gynandropsis gynandra is induced by light and dependent on photosynthesis by Tina B. Schreier et al.
Light and photosynthesis trigger plasmodesmal formation in C4 dicotyledons.
Selected by Yueh Cho. Read the preLight here.

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Welcome to our monthly trawl for developmental and stem cell biology (and related) preprints.

The preprints this month are hosted on bioRxiv and arXiv – use these links below to get to the section you want:

Developmental biology

• Patterning & signalling
• Morphogenesis & mechanics
• Genes & genomes
• Stem cells, regeneration & disease modelling
• Plant development
• Evo-devo

Cell Biology

Modelling

Tools & Resources

Developmental biology

| Patterning & signalling

Torsion of the heart tube by shortage of progenitor cells : identification of Greb1l as a genetic determinant of criss-cross heart in mice

 Segolene Bernheim,  Adrien Borgel,  Jean Francois Le Garrec,  Emeline Perthame,  Audrey Desgrange,  Wojciech Krezel,  Francesca Raimondi, Damien Bonnet,  Lucile Houyel,  Sigolene Meilhac

A population intrinsic timer controls Hox gene expression and cell dispersion during progenitor addition to the body axis

Lara Busby, Guillermo Serrano Nájera,  Ben Steventon

Lack of apoptosis causes cellular senescence and tumorigenesis in drosophila epithelial cells

Juan Manuel Garcia-Arias, Noelia Pinal, Sara Cristóbal Vargas,  Carlos Estella, Ginés Morata

Opposing roles for TGFβ- and BMP-signaling during nascent alveolar differentiation in the developing human lung

 Tristan Frum,  Peggy P. Hsu,  Renee F.C. Hein,  Ansley S. Conchola,  Charles J. Zhang, Olivia R. Utter, Abhinav Anand, Yi Zhang, Sydney G. Clark,  Ian Glass,  Jonathan Z. Sexton,  Jason R. Spence

OptIC Notch reveals mechanism that regulates receptor interactions with CSL

 Jonathan M. Townson,  Maria J. Gomez-Lamarca,  Carmen Santa Cruz Mateos,  Sarah J. Bray

A short isoform of the UNC-6/Netrin receptor UNC-5 is required for growth cone polarity and robust growth cone protrusion in Caenorhabditis elegans

 Snehal S. Mahadik,  Erik A. Lundquist

Regenerative growth is constrained by brain tumor to ensure proper patterning in Drosophila

 Syeda Nayab Fatima Abidi, Felicity Ting-Yu Hsu,  Rachel K. Smith-Bolton

Apical-driven cell sorting optimised for tissue geometry ensures robust patterning

 Prachiti Moghe,  Roman Belousov,  Takafumi Ichikawa, Chizuru Iwatani,  Tomoyuki Tsukiyama,  Francois Graner,  Anna Erzberger,  Takashi Hiiragi

Dkk2 interacts with Pax9 in palate mesenchyme to pattern and tune osteogenesis

 Jeremie Oliver Pina,  Daniela M Roth,  Resmi Raju,  Emma Wentworth Winchester,  Parna Chattaraj, Fahad K Kidwai,  Fabio R Faucz,  James Iben, Cameron Padilla,  Justin L Cotney,  Rena N D’Souza

Hypoxia delays steroid-induced developmental maturation in Drosophila by suppressing EGF signaling

Michael J Turingan, Tan Li, Jenna Wright, Savraj S Grewal

Wnt/β-catenin signaling controls mouse eyelid growth by mediating epithelial-mesenchymal interactions

 Xuming Zhu, Makoto Senoo,  Sarah E. Millar, Gang Ma

Embryonic organizer specification in the mud snail Ilyanassa obsoleta depends on intercellular signaling

Jessica E. Wandelt, Ayaki Nakamoto,  Morgan Q Goulding,  Lisa Nagy

SRC-1 controls growth cone polarity and protrusion with the UNC-6/Netrin receptor UNC-5 in Caenorhabditis elegans

 Snehal S. Mahadik, Emily K. Burt,  Erik A. Lundquist

Wnt4a is indispensable for genital duct elongation but not for gonadal sex differentiation in the medaka Oryzias latipes

 Akira Kanamori, Ryota Kitani, Atsuko Oota, Koudai Hirano, Taijun Myosho, Tohru Kobayashi, Kouichi Kawamura, Naoyuki Kato, Satoshi Ansai, Masato Kinoshita

Embryonic organizer specification in the mud snail Ilyanassa obsoleta depends on intercellular signaling

Jessica E. Wandelt, Ayaki Nakamoto,  Morgan Q Goulding,  Lisa M. Nagy

| Morphogenesis & mechanics

Contractile ring mechanosensation and its anillin-dependent tuning during early embryogenesis

Christina Rou Hsu, Gaganpreet Sangha, Wayne Fan, Joey Zheng,  Kenji Sugioka

Specification of distinct cell types in a sensory-adhesive organ for metamorphosis in the Ciona larva

Christopher J. Johnson, Florian Razy-Krajka, Fan Zeng, Katarzyna M. Piekarz, Shweta Biliya,  Ute Rothbächer,  Alberto Stolfi

The Role of Lrig1 in the Development of the Colonic Epithelium

 Rachel E. Hopton, Nicholas J. Jahahn,  Anne E. Zemper

Mechanical regulation of substrate adhesion and de-adhesion drives a cell contractile wave during tissue morphogenesis

 Claudio Collinet, Anaïs Bailles,  Thomas Lecuit

Hierarchical Morphogenesis of Swallowtail Butterfly Wing Scale Nanostructures

Kwi Shan Seah,  Vinodkumar Saranathan

Developmental biomechanics and age polyethism in leaf-cutter ants

 Frederik Püffel, Lara Meyer, Natalie Imirzian, Flavio Roces, Richard Johnston,  David Labonte

Inverse blebs operate as hydraulic pumps during mouse blastocyst formation

Markus F. Schliffka, Julien G. Dumortier, Diane Pelzer, Arghyadip Mukherjee,  Jean-Léon Maître

A chemo-mechanical model of endoderm movements driving elongation of the amniote hindgut

 Nandan Nerurkar,  Panagiotis Oikonomou, Helena C Cirne

Quantifying the relationship between cell proliferation and morphology during development of the face

 Rebecca M. Green,  Lucas D. Lo Vercio,  Andreas Dauter,  Elizabeth C. Barretto,  Jay Devine,  Marta Vidal-García,  Marta Marchini,  Samuel Robertson, Xiang Zhao, Anandita Mahika, M. Bilal Shakir, Sienna Guo,  Julia C. Boughner,  Wendy Dean,  Arthur D. Lander,  Ralph S. Marcucio,  Nils D. Forkert,  Benedikt Hallgrímsson

Cardiac competence of the paraxial head mesoderm fades concomitant with a shift towards the head skeletal muscle programme

 Afnan Alzamrooni, Petra Mendes Vieira,  Nicoletta Murciano, Matthew Wolton,  Frank R. Schubert,  Samuel C. Robson,  Susanne Dietrich

EBF1 limits the numbers of cochlear hair and supporting cells and forms the scala tympani and spiral limbus during inner ear development

Hiroki Kagoshima,  Hiroe Ohnishi, Ryosuke Yamamoto, Akiyoshi Yasumoto, Koichi Omori, Rudolf Grosschedl,  Norio Yamamoto

Mitochondrial citrate carrier SLC25A1 is a dosage-dependent regulator of metabolic reprogramming and morphogenesis in the developing heart

Chiemela Ohanele, Jessica N. Peoples, Anja Karlstaedt, Joshua T. Geiger, Ashley D. Gayle, Nasab Ghazal, Fateemaa Sohani, Milton E. Brown, Michael E. Davis, George A. Porter Jr.,  Victor Faundez,  Jennifer Q. Kwong

Endodermal BRD4 mediates epithelial-mesenchymal crosstalk during lung development

Derek C. Liberti, Hongbo Wen, Kwaku K. Quansah, Prashant Chandrasekaran, Josh Pankin,  Nigel S. Michki, Annabelle Jin, MinQi Lu, Maureen Peers De Nieuwburgh, Lisa R. Young, Rajan Jain,  David B. Frank

DNA-guided transcription factor cooperativity shapes face and limb mesenchyme

 Seungsoo Kim,  Ekaterina Morgunova,  Sahin Naqvi, Maram Bader,  Mervenaz Koska,  Alexander Popov,  Christy Luong,  Angela Pogson,  Peter Claes,  Jussi Taipale,  Joanna Wysocka

A role for DNA methylation in bumblebee morphogenesis hints at female-specific developmental erasure

 B. J. Hunt,  M. Pegoraro,  H. Marshall,  E. B. Mallon

Actomyosin remodeling regulates biomineral formation, growth and morphology during eukaryote skeletogenesis

Eman Hijaze, Tsvia Gildor, Ronald Seidel, Majed Layous,  Mark Winter, Luca Bertinetti, Yael Politi,  Smadar Ben-Tabou de-Leon

Inhibitory G proteins play multiple roles to polarize sensory hair cell morphogenesis

 Amandine Jarysta,  Abigail L.D. Tadenev, Matthew Day, Barry Krawchuk, Benjamin E. Low, Michael V. Wiles,  Basile Tarchini

A combination of convergent extension and differential adhesion explains the shapes of elongating gastruloids

Martijn A. de Jong, Esmée Adegeest, Noémie M. L. P. Bérenger-Currias, Maria Mircea, Roeland M. H. Merks,  Stefan Semrau

Endodermal BRD4 mediates epithelial-mesenchymal crosstalk during lung development

Derek C. Liberti, Hongbo Wen, Kwaku K. Quansah, Prashant Chandrasekaran, Josh Pankin,  Nigel S. Michki, Annabelle Jin, MinQi Lu, Maureen Peers De Nieuwburgh, Lisa R. Young, Rajan Jain,  David B. Frank

SPLIT HAND/FOOT VARIANTS FAIL TO RESCUE PRDM1A MUTANT CRANIOFACIAL DEFECTS

Brittany T. Truong, Lomeli C. Shull, Ezra Lencer, Kristin B. Artinger

| Genes & genomes

Chromosome-specific maturation of the epigenome in the Drosophila male germline

James Anderson,  Steven Henikoff,  Kami Ahmad

DMRT1 is a Testis Determining Gene in Rabbits and is Also Essential for Female Fertility

 Emilie Dujardin, Marjolaine Andre, Aurelie Dewaele, Beatrice Mandon-Pepin, Francis Poulat, Anne Frambourg, Dominique Thepot, Luc Jouneau, Genevieve Jolivet, Eric Pailhoux, Maelle Pannetier

Transcriptional and epigenomic profiling identifies YAP signaling as a key regulator of intestinal epithelium maturation

Laura Pikkupeura, Raul Bressan, Jordi Guiu, Yun Chen, Martti Maimets, Daniela Mayer, Pawel Schweiger, Stine Hansen, Grzegorz Maciag, Hjalte Larsen, Kadi Lohmussaar, Marianne Pedersen, Joji Teves, Jette Lange,  Vladimir Benes,  Albin Sandelin,  Kim Jensen

Parallels and contrasts between the cnidarian and bilaterian maternal-to-zygotic transition are revealed in Hydractinia embryos

Taylor N Ayers,  Matthew Nicotra,  Miler T Lee

Rapid evolution of piRNA clusters in the Drosophila melanogaster ovary

 Satyam Srivastav,  Cédric Feschotte, Andrew G. Clark

Spatial transcriptomics reveals novel genes during the remodelling of the embryonic human arterial valves

Rachel Queen, Moira Crosier, Lorraine Eley, Janet Kerwin, Jasmin E. Turner, Jianshi Yu, Tamil Dhanaseelan, Lynne Overman, Hannah Soetjoadi, Richard Baldock, Jonathon Coxhead, Veronika Boczonadi,  Alex Laude,  Simon J. Cockell, Maureen A. Kane,  Steven Lisgo,  Deborah J. Henderson

Molecular signatures associated with successful implantation of the human blastocyst

 Jennifer N. Chousal, Srimeenakshi Srinivasan,  Katherine Lee, Cuong To, Kyucheol Cho, Wei Zhang, Ana Lisa Yeo, V. Gabriel Garzo, Mana M. Parast, Louise C. Laurent,  Heidi Cook-Andersen

Using CRISPR/Cas9 to identify genes required for mechanosensory neuron development and function

Christopher J. Johnson, Akhil Kulkarni, William J. Buxton, Tsz Y. Hui, Anusha Kayastha, Alwin A. Khoja, Joviane Leandre, Vanshika V. Mehta, Logan Ostrowski, Erica G. Pareizs, Rebecca L. Scotto, Vanesa Vargas, Raveena M. Vellingiri, Giulia Verzino, Rhea Vohra, Saurabh C. Wakade, Veronica M. Winkeljohn, Victoria M. Winkeljohn,  Travis M. Rotterman,  Alberto Stolfi

Gene regulatory patterning codes in early cell fate specification of the C. elegans embryo

 Alison G. Cole,  Tamar Hashimshony,  Zhuo Du,  Itai Yanai

Complex aneuploidy triggers autophagy and p53-mediated apoptosis and impairs the second lineage segregation in human preimplantation embryos

 Marius Regin, Yingnan Lei,  Edouard Couvreu De Deckersberg, Yves Guns,  Pieter Verdyck,  Greta Verheyen, Hilde Van de Velde,  Karen Sermon,  Claudia Spits

Identification of a core transcriptional program driving the human renal mesenchymal-to-epithelial transition

 John-Poul Ng-Blichfeldt,  Benjamin J. Stewart,  Menna R. Clatworthy, Julie M. Williams,  Katja Röper

Single cell transcriptomics of the human parasite Schistosoma mansoni first intra-molluscan stage reveals tentative tegumental and stem cell regulators

 Carmen L. Diaz Soria,  Teresa Attenborough,  Zhigang Lu, Jennie Graham, Christopher Hall, Sam Thompson, Toby G. R. Andrews,  Kate A. Rawlinson,  Matthew Berriman,  Gabriel Rinaldi

Comparative single-cell analyses identify shared and divergent features of human and mouse kidney development

 Sunghyun Kim, Kari Koppitch, Riana K. Parvez, Jinjin Guo, MaryAnne Achieng, Jack Schnell,  Nils O. Lindstrom,  Andrew P. McMahon

Single cell transcriptomics of human prenatal anterior foregut-derived organs identifies distinct developmental signatures directing commitment and specialization of the thymic epithelial stroma

Abdulvasey Mohammed,  Priscila Ferreira Slepicka,  Benjamin Solomon,  Kelsea M Hubka, Hanh Dan Nguyen, Michael G Chavez,  Christine Y Yeh,  Virginia D Winn,  Casey A Gifford,  Purvesh Khatri,  Andrew Gentles,  Katja Gabrielle Weinacht

Novel metrics reveal new structure and unappreciated heterogeneity in C. elegans development

Gunalan Natesan, Timothy Hamilton,  Eric J. Deeds,  Pavak K. Shah

The Drosophila drop-dead gene is required for eggshell integrity

 Tayler D. Sheahan, Amanpreet Grewal, Laura E. Korthauer,  Edward M. Blumenthal

Phase transition of maternal RNAs during vertebrate oocyte-to-embryo transition

Hyojeong Hwang, Sijie Chen, Meng Ma, Divyanshi, Hao-Chun Fan, Elizabeth Borwick, Elvan Böke, Wenyan Mei, Jing Yang

Two distinct waves of transcriptome and translatome remodelling drive germline stem cell differentiation

 Tamsin J. Samuels,  Jinghua Gui,  Daniel Gebert,  Felipe K. Teixeira

Warming During Embryogenesis Induces a Lasting Transcriptomic Signature in Fishes

 Daniel M. Ripley, Terence Garner, Samantha A. Hook, Ana Veríssimo,  Bianka Grunow,  Timo Moritz, Peter Clayton,  Holly A. Shiels,  Adam Stevens

Genetics of skeletal proportions in two different populations

 Eric Bartell,  Kuang Lin,  Kristin Tsuo,  Wei Gan,  Sailaja Vedantam,  Joanne B Cole,  John M Baronas,  Loic Yengo,  Eirini Marouli,  Tiffany Amariuta, GIANT Consortium,  Nora E Renthal, Christina M Jacobsen,  Rany Salem,  Robin G Walters,  Joel N Hirschhorn

Enhancer status in the primitive endoderm supports unrestricted lineage plasticity in regulative development

 Madeleine Linneberg-Agerholm, Annika Charlotte Sell,  Alba Redo-Riveiro,  Martin Proks, Teresa E. Knudsen,  Marta Perera,  Joshua M. Brickman

Single Cell Transcriptomics Identifies Distinct Choroid Cell Populations Involved in Visually Guided Eye Growth

 Jody A Summers, Kenneth L Jones

Dissection of anterior mesendoderm segregation at single cell level in zebrafish

 Tao Cheng, Xiang Liu,  Yang Dong, Yan-Yi Xing, Cong Liu, Yun-Fei Li, Ying Huang, Jing-Yun Luan,  Hong-Qing Liang,  Peng-Fei Xu

The Crucial Role of CTCF in Mitotic Progression during Early Development of Sea Urchin

Kaichi Watanabe, Megumi Fujita, Kazuko Okamoto, Hajime Yoshioka, Miki Moriwaki, Hideki Tagashira, Akinori Awazu, Takashi Yamamoto, Naoaki Sakamoto

Extensive DNA methylome rearrangement during early lamprey embryogenesis

 Allegra Angeloni,  Skye Fissette, Deniz Kaya,  Jillian M. Hammond,  Hasindu Gamaarachchi,  Ira W. Deveson,  Robert J. Klose, Weiming Li, Xiaotian Zhang,  Ozren Bogdanovic

| Stem cells, regeneration & disease modelling

The E3 Ubiquitin Ligase Nedd4L Acts as a Checkpoint Against Activation in Quiescent Muscle Stem Cells

Darren Blackburn, Korin Sahinyan, Aldo Hernnandez Corchado, Felicia Lazure, Vincent Richard, Laura Raco, Rene Zahedi, Christoph Borchers, Christoph Lepper, Hiroshi Kawabe, Arezu Jahani-asl,  Hamed S Najafabadi, Vahab D Soleimani

Adrenergic signaling stimulates body-wide stem cell activation for limb regeneration

 Duygu Payzin-Dogru, Sarah E. Wilson, Steven J. Blair,  Aaron M. Savage, Emil Kriukov, Victor Cat, Louis V. Cammarata, Burcu Erdogan, Shifa Hossain,  Noah Lopez, Julia Losner, Juan C. Velazquez Matos, Sangwon Min, Kelly Dooling, Bobby Groves, Alan Y. Wong,  Petr Baranov, Hani Singer,  Isaac M. Chiu,  Brian J. Haas,  Jessica L. Whited

CRISPRi Gene Modulation and All-Optical Electrophysiology in Post-Differentiated Human iPSC-Cardiomyocytes

 Julie L. Han,  Yuli W. Heinson, Christianne J. Chua,  Wei Liu,  Emilia Entcheva

Nutrient-driven dedifferentiation of enteroendocrine cells promotes adaptive intestinal growth

Hiroki Nagai, Luis Augusto Eijy Nagai, Sohei Tasaki,  Ryuichiro Nakato, Daiki Umetsu, Erina Kuranaga, Masayuki Miura,  Yu-ichiro Nakajima

Distinct mechanisms for sebaceous gland self-renewal and regeneration provide durability in response to injury

Natalia A. Veniaminova, Yunlong Jia, Adrien M. Hartigan, Thomas J. Huyge, Shih-Ying Tsai, Marina Grachtchouk, Seitaro Nakagawa, Andrzej A. Dlugosz, Scott X. Atwood, Sunny Y. Wong

Hindbrain boundaries as niches of neural progenitor/stem cells regulated by the extracellular matrix proteoglycan chondroitin sulphate

Carmel Hutchings, Yarden Nuriel, Daniel Lazar, Ayelet Kohl,  Elizabeth Muir, Yuval Nevo, Hadar Benyamini,  Dalit Sela-Donenfeld

A primary microcephaly-associated sas-6 mutation perturbs centrosome duplication, dendrite morphogenesis, and ciliogenesis in Caenorhabditis elegans

Mary Bergwell, Amy Smith, Ellie Smith, Carter Dierlam, Ramon Duran, Erin Haastrup, Rebekah Napier-Jameson, Rory Seidel, William Potter, Adam Norris,  Jyoti Iyer

VEGF-C overexpression in kidney progenitor cells is a model of renal lymphangiectasia

 Michael D. Donnan,  Dilip K. Deb, Valentin David,  Susan E. Quaggin

Six3 and Six6 jointly regulate the identities and developmental trajectories of multipotent retinal progenitor cells in the mouse retina

Alexander Ferrena, Xusheng Zhang, Rupendra Shrestha, Deyou Zheng, Wei Liu

Parallel genome-scale CRISPR screens distinguish pluripotency and self-renewal

Bess P. Rosen, Qing V. Li, Hyunwoo Cho, Dingyu Liu, Dapeng Yang, Sarah Graff, Jielin Yan, Renhe Luo, Nipun Verma, Jeyaram R. Damodaran, Michael A. Beer, Simone Sidoli, Danwei Huangfu

Optimizing spinal cord injury in zebrafish larvae: effects of age on the injury response

 Kirsten L Underwood,  Whitney J Walker,  Patrick I Garrett, Shannon Linch,  Thomas P Rynes,  Karen Mruk

Dual-topology of collagen XV and tenascin C acts in concert to guide and shape developing motor axons

 Laurie Nemoz-Billet,  Martial Balland,  Laurent Gilquin,  Benjamin Gillet,  Isabelle Stevant,  Emilie Guillon,  Sandrine Hughes,  Gilles Carpentier,  Elisabeth Vaganay,  Mary-Julieth Gonzalez-Melo,  Manuel Koch,  Yad Ghavi-Helm,  Florence Ruggiero,  Sandrine Bretaud

Telocytes are a critical source of Wnts essential for hair follicle regeneration

Marco Canella, Simcha Nalick, Noa Corem, Amal Gharbi, Ittai Ben-Porath,  Michal Shoshkes Carmel

Cbl and Cbl-b Ubiquitin Ligases are Essential for Intestinal Epithelial Stem Cell Maintenance

Neha Zutshi,  Bhopal C Mohapatra, Pinaki Mondal, Wei An, Benjamin T Goetz, Shou Wang, Scong Li, Matthew D Storck, David Mercer, Adrian R Black, Sarah P Thayer, Jennifer Black, Chi Lin,  Vimla Band,  Hamid Band

MuSK-BMP signaling in adult muscle stem cells maintains quiescence and regulates myofiber size

Laura Ann Madigan, Diego Jaime, Justin R Fallon

New permanent stem cell niche for development and regeneration in a chordate

 Virginia Vanni,  Federico Caicci,  Anna Peronato,  Graziano Martello,  Davide Asnicar,  Fabio Gasparini,  Loriano Ballarin,  Lucia Manni

The emergence of human gastrulation upon in vitro attachment

Riccardo De Santis, Eleni Rice, Gist Croft, Min Yang, Edwin A. Rosado-Olivieri, Ali H. Brivanlou

Investigating the developmental onset of regenerative potential in the annelid Capitella teleta

 Alicia A. Boyd,  Elaine C. Seaver

Epithelial-Mesenchymal Transition: An Organizing Principle of Mammalian Regeneration

Kamila Bedelbaeva, Benjamin Cameron, Jack Latella, Azamat Aslanukov, Dmitri Gourevitch,  Ramana Davuluri,  Ellen Heber-Katz

Cardiopharyngeal Mesoderm specification into cardiac and skeletal muscle lineages in gastruloids

 Laurent Argiro, Céline Chevalier,  Caroline Choquet,  Nitya Nandkishore, Adeline Ghata,  Anaïs Baudot,  Stéphane Zaffran,  Fabienne Lescroart

DNA damage primes hematopoietic stem cells for direct megakaryopoiesis

Corey M. Garyn, Oriol Bover, John W. Murray, Ma Jing, Karen Jeanina Salas Briceno,  Susan R Ross,  Hans-Willem Snoeck

Accessibility and activity of transcriptional regulatory elements during sea urchin embryogenesis and differentiation

 Cesar Arenas-Mena, Serhat Akin

Fgf10 mutant newts can regenerate normal limbs despite severe developmental hindlimb defects

 Miyuki Suzuki, Akinori Okumrura, Yuki Shibata, Tetsuya Endo, Machiko Teramoto, Akane Chihara, Kiyokazu Agata,  Marianne E. Bronner, Ken-ichi T Suzuki

Cbl and Cbl-b Ubiquitin Ligases are Essential for Intestinal Epithelial Stem Cell Maintenance

Neha Zutshi,  Bhopal C. Mohapatra, Pinaki Mondal, Wei An, Benjamin T. Goetz, Shuo Wang, Sicong Li, Matthew D. Storck, David F. Mercer, Adrian R. Black, Sarah P. Thayer, Jennifer D. Black, Chi Lin,  Vimla Band,  Hamid Band

Differentiation and quality control of smooth muscle cells from human pluripotent stem cells via the neural crest lineage

Peter J Holt, Hongorzul Davaapil, Deeti K Shetty, Aishwarya G Jacob, Sanjay Sinha

Arp2/3 Complex Activity Enables Nuclear YAP for Naive Pluripotency of Human Embryonic Stem Cells

 Nathaniel P Meyer,  Tania Singh,  Matthew L Kutys,  Todd Nystul, Diane L Barber

Modeling kidney development, disease, and plasticity with clonal expandable nephron progenitor cells and nephron organoids

Biao Huang, Zipeng Zeng, Hui Li, Zexu Li, Xi Chen, Jinjin Guo, Chennan C. Zhang, Megan E. Schreiber, Ariel C. Vonk, Tianyuan Xiang, Tadrushi Patel, Yidan Li, Riana K. Parvez, Balint Der, Jyun Hao Chen, Zhenqing Liu, Matthew E. Thornton, Brendan H. Grubbs, Yarui Diao, Yali Dou, Ksenia Gnedeva,  Nils O. Lindström, Qilong Ying, Nuria M. Pastor-Soler, Teng Fei, Kenneth R. Hallows, Andrew P. McMahon, Zhongwei Li

A single cell transcriptomic fingerprint of stressed premature, imbalanced differentiation of embryonic stem cells

Ximena Ruden, Aditi Singh, Teya Marben, Wen Tang, Awoniyi Awonuga, Douglas M. Ruden, Elizabeth Puscheck, Hao Feng,  Daniel Rappolee

Fgf10 mutant newts can regenerate normal limbs despite severe developmental hindlimb defects

 Miyuki Suzuki, Akinori Okumura, Yuki Shibata, Tetsuya Endo, Machiko Teramoto, Akane Chihara, Kiyokazu Agata,  Marianne E. Bronner, Ken-ichi T. Suzuki

Stem cells tightly regulate dead cell clearance to maintain tissue fitness

 Katherine S Stewart, Kevin AU Gonzales, Shaopeng Yuan, Matthew T Tierney, Alain R Bonny, Yihao Yang, Nicole R Infarinato, Christopher J Cowley, John M Levorse, Hilda Amalia Pasolli, Sourav Ghosh, Carla V Rothlin, Elaine Fuchs

Native extracellular matrix promotes human neuromuscular organoid morphogenesis and function

 Beatrice Auletta,  Lucia Rossi, Francesca Cecchinato, Gilda Barbato, Agnese Lauroja, Pietro Chiolerio, Giada Cecconi,  Edoardo Maghin,  Maria Easler,  Paolo Raffa,  Silvia Angiolillo, Wei Qin, Sonia Calabrò, Chiara Villa,  Onelia Gagliano,  Cecilia Laterza,  Davide Cacchiarelli,  Matilde Cescon,  Monica Giomo,  Yvan Torrente,  Camilla Luni,  Martina Piccoli,  Nicola Elvassore,  Anna Urciuolo

Ampk activation by glycogen expenditure primes the exit of naïve pluripotency

 Seong-Min Kim, Eun-Ji Kwon, Ji-Young Oh, Han Sun Kim, Sunghyouk Park, Goo Jang, Jeong Tae Do,  Keun-Tae Kim, Hyuk-Jin Cha

| Plant development

Gibberellin and the miRNA156-targeted SlSBPs synergistically regulate tomato floral meristem activity and fruit patterning

Leticia F. Ferigolo,  Mateus H. Vicente,  Joao P. O. Correa,  Carlos H. Barrera-Rojas,  Eder M. Silva,  Geraldo F.F. Silva,  Airton Carvalho Jr,  Lazaro E.P. Peres,  Guilherme B. Ambrosano,  Gabriel R. A. Margarido,  Robert Sablowski,  Fabio T.S. Nogueira

Three-dimensional fruit growth analysis clarifies developmental mechanisms underlying complex shape diversity in persimmon fruit

Akane Kusumi,  Soichiro Nishiyama,  Ryutaro Tao

3D imaging reveals apical stem cell responses to ambient temperature

 Christian Wenzl,  Jan U. Lohmann

An elastic proteinaceous envelope encapsulates the early Arabidopsis embryo

 Yosapol Harnvanichvech,  Cecilia Borassi, Diaa Eldin S. Daghma,  Hanne M. van der Kooij,  Joris Sprakel,  Dolf Weijers

A mitochondrial regulon for developmental ferroptosis in rice blast

Qing Shen, Fan Yang,  Naweed I Naqvi

An integrative multi-omics approach to draft gene regulatory networks at a cell type resolution

 Danila Voronov,  Periklis Paganos,  Marta S. Magri, Claudia Cuomo,  Ignacio Maeso, Jose Luis Gómez-Skarmeta,  Maria Ina Arnone

Growth and tension in explosive fruit

Gabriella Mosca, Ryan Eng, Milad Adibi, Saiko Yoshida, Brendan Lane, Leona Bergheim, Gaby Weber, Richard S. Smith,  Angela Hay

Histone Deacetylase 19 Regulates Shoot Meristemless Expression In The Carpel Margin Meristem Contributing To Ovule Number Determination And Transmitting Tract Differentiation

S Manrique,  A Cavalleri, A Guazzotti, GH Villarino, S Simonini, A Bombarely, T Higashiyama, U Grossniklaus, C Mizzotti, AM Pereira, S Coimbra, S Sankaranarayanan, E Onelli,  S Masiero, RG Franks, L Colombo

An SMR cell-cycle inhibitor inducible by a carotenoid metabolite resets root development and drought tolerance in Arabidopsis

Jeanne Braat, Meryl Jaonina, Pascale David, Maïté Leschevin, Bertrand Légeret, Stefano D’Alessandro, Frédéric Beisson,  Michel Havaux

SEPALLATA-driven MADS transcription factor tetramerization is required for inner whorl floral organ development

 Veronique Genevieve Hugouvieux,  Romain Blanc-Mathieu,  Michel Paul,  Aline Janeau,  Xiaocai Xu, Jeremy Lucas, Xuelei Lai, Antonin Galien,  Wenhao Yan, Max H Nanao,  Kerstin Kaufmann,  Francois Parcy,  Chloë Zubieta

Altered methionine metabolism impacts phenylpropanoid production and plant development in Arabidopsis thaliana

Doosan Shin, Veronica C Perez, Gabriella K Dickinson, Haohao Zhao, Ru Dai, Breanna M Tomiczek, Keun Ho Cho, Ning Zhu, Jin Koh, Alexander Grenning, Jeongim Kim

ROP GTPase regulates polarised cell growth and cell division orientation during tissue development and organogenesis in Marchantia polymorpha

 Hugh Mulvey,  Liam Dolan

| Evo-devo

Dynamic cell differentiation in multicellularity with specialized cell types

 Yuanxiao Gao,  Román Zapién-Campos, Arne Traulsen

Identifying candidate de novo genes expressed in the somatic female reproductive tract of Drosophila melanogaster

Kaelina D. Lombardo, Hayley K. Sheehy, Julie M. Cridland, David J. Begun

Phenotypic innovation in one tooth induced concerted developmental evolution in another

 Marie Sémon, Klara Steklikova, Marion Mouginot, Manon Peltier, Philippe Veber, Laurent Guéguen,  Sophie Pantalacci

Balancing selection at a wing pattern locus is associated with major shifts in genome-wide patterns of diversity and gene flow

María Ángeles Rodríguez de Cara,  Paul Jay,  Quentin Rougemont, Mathieu Chouteau, Annabel Whibley, Barbara Huber, Florence Piron-Prunier, Renato Rogner Ramos, André V. L. Freitas, Camilo Salazar, Karina Lucas Silva-Brandão, Tatiana Teixeira Torres,  Mathieu Joron

Cytoplasmic polyadenylation is an ancestral hallmark of early development in animals

 Labib Rouhana,  Allison Edgar,  Fredrik Hugosson, Valeria Dountcheva, Mark Q. Martindale,  Joseph F. Ryan

Ascidian cells with traits of neural crest and tailbud cells of vertebrates

Tasuku Ishida,  Yutaka Satou

Using developmental rules to align microevolution with macroevolution

 Fabio Andrade Machado,  Carrie S. Mongle, Graham Slater,  Anna Penna,  Anna Wisniewski, Anna Soffin, Vitor Dutra,  Josef C. Uyeda

Plasticity-led evolution as an intrinsic property of developmental gene regulatory networks

 Akira R. Kinjo,  Eden Tian Hwa Ng

Evolutionary conservation of embryonic DNA methylome remodelling in distantly related teleost species

Samuel E. Ross, Javier Vázquez-Marín, Krista R.B. Gert, Álvaro González-Rajal,  Marcel E. Dinger,  Andrea Pauli,  Juan Ramon Martínez-Morales,  Ozren Bogdanovic

Using developmental rules to align microevolution with macroevolution

 Fabio Andrade Machado,  Carrie S. Mongle, Graham Slater,  Anna Penna,  Anna Wisniewski, Anna Soffin, Vitor Dutra,  Josef C. Uyeda

Cell Biology

Tudor domain containing protein 5-like (Tdrd5l) identifies a novel germline body and regulates maternal RNAs during oogenesis

 Caitlin Pozmanter, Leif Benner, Sydney Kelly,  Harrison Curnutte,  Mark Van Doren

Neuronal IL-17 controls C. elegans developmental diapause through CEP-1/p53

Abhishiktha Godthi, Sehee Min, Srijit Das, Johnny Cruz-Corchado, Andrew Deonarine, Kara Misel-Wuchter,  Priya D. Issuree,  Veena Prahlad

Phosphorylation of 53BP1 by ATM enforce neurodevelopmental programs in cortical organoids

Bitna Lim, Mohamed Nadhir Djekidel,  Yurika Matsui, Seunghyun Jung, Zuo-Fei Yuan, Xusheng Wang, Xiaoyang Yang, Abbas Shirinifard Pilehroud, Haitao Pan, Fang Wang, Shondra Pruett-Miller, Kanisha Kavdia, Vishwajeeth Pagala, Yiping Fan,  Junmin Peng, Beisi Xu, Jamy C. Peng

Piezo1-dependent regulation of pericyte proliferation by blood flow during brain vascular development

Huaxing Zi, Xiaolan Peng, Jianbin Cao, Jiwen Bu, Jiulin Du, Jia Li

Gap junction-dependent amino acid transfer promotes germ cell growth

Caroline Vachias, Camille Tourlonias, Louis Grelee, Nathalie Gueguen,  Yoan Renaud, Graziella Richard, Parvathy Venugopal,  Pierre Pouchin,  Emilie Brasset,  Vincent Mirouse

The cellular basis of feeding-dependent body size plasticity in sea anemones

 Kathrin Garschall, Belen Garcia-Pascual,  Eudald Pascual-Carreras, Daria Filimonova,  Annika Guse,  Iain G. Johnston,  Patrick R.H. Steinmetz

Chimeric PRMT6 protein produced by an endogenous retrovirus promoter regulates cell fate decision in mouse preimplantation embryos

Shinnosuke Honda, Maho Hatamura, Yuri Kunimoto, Shuntaro Ikeda, Naojiro Minami

Luteinizing hormone stimulates ingression of granulosa cells within the mouse preovulatory follicle

 Corie M. Owen,  Laurinda A. Jaffe

A primary microcephaly-associated sas-6 mutation perturbs centrosome duplication, dendrite morphogenesis, and ciliogenesis in Caenorhabditis elegans

Mary Bergwell, Amy Smith, Ellie Smith, Carter Dierlam, Ramon Duran, Erin Haastrup, Rebekah Napier-Jameson, Rory Seidel, William Potter, Adam Norris,  Jyoti Iyer

Native extracellular matrix promotes human neuromuscular organoid morphogenesis and function

 Beatrice Auletta,  Lucia Rossi, Francesca Cecchinato, Gilda Barbato, Agnese Lauroja, Pietro Chiolerio, Giada Cecconi,  Edoardo Maghin,  Maria Easler,  Paolo Raffa,  Silvia Angiolillo, Wei Qin, Sonia Calabrò, Chiara Villa,  Onelia Gagliano,  Cecilia Laterza,  Davide Cacchiarelli,  Matilde Cescon,  Monica Giomo,  Yvan Torrente,  Camilla Luni,  Martina Piccoli,  Nicola Elvassore,  Anna Urciuolo

EMT induces cell-cycle-dependent changes of Rho GTPases and downstream effectors

Kamran Hosseini, Annika Frenzel,  Elisabeth Fischer-Friedrich

Tet Controls Axon Guidance in Early Brain Development through Glutamatergic Signaling

 Hiep Tran, Le Le, Badri Nath Singh, Joseph Kramer, Ruth Steward

Mapping of centriolar proteins onto the post-embryonic lineage of C. elegans

 Nils Kalbfuss, Antonin Berger, Pierre Gönczy

Cbl and Cbl-b Ubiquitin Ligases are Essential for Intestinal Epithelial Stem Cell Maintenance

Neha Zutshi,  Bhopal C. Mohapatra, Pinaki Mondal, Wei An, Benjamin T. Goetz, Shuo Wang, Sicong Li, Matthew D. Storck, David F. Mercer, Adrian R. Black, Sarah P. Thayer, Jennifer D. Black, Chi Lin,  Vimla Band,  Hamid Band

Modelling

The salt-and-pepper pattern in mouse blastocysts is compatible with signalling beyond the nearest neighbours

 Sabine C. Fischer,  Simon Schardt,  Joaquín Lilao-Garzón,  Silvia Muñoz Descalzo

Turing pattern formation in reaction-cross-diffusion systems with a bilayer geometry

 Antoine Diez,  Andrew L. Krause,  Philip K. Maini,  Eamonn A. Gaffney,  Sungrim Seirin-Lee

doi: https://doi.org/10.1101/2023.05.30.542795

How human-derived brain organoids are built differently from brain organoids derived of genetically-close relatives: A multi-scale hypothesis

Tao Zhang, Sarthak Gupta,  Madeline A. Lancaster, J. M. Schwarz

Self-organization of microtubules: complexity analysis of emergent patterns

Nikita Frolov, Bram Bijnens, Daniel Ruiz-Reynés, Lendert Gelens

Metabolic Regulatory Network Kinetic Modeling with Multiple Isotopic Tracers for iPSCs

Keqi Wang, Wei Xie, Sarah W. Harcum

A geometrical perspective on development

Archishman Raju, Eric D. Siggia

Tools & Resources

Gene Expression Detection in Developing Mouse Tissue Using In Situ Hybridization and µCT Imaging

 Vilma Väänänen,  Mona M. Christensen,  Heikki Suhonen,  Jukka Jernvall

Trans-scale live imaging of an E5.5 mouse embryo using incubator-type dual-axes light-sheet microscopy

Go Shioi, Tomonobu M Watanabe, Junichi Kaneshiro,  Yusuke Azuma,  Shuichi Onami

Unraveling cellular complexity with unlimited multiplexed super-resolution imaging

 Florian Schueder,  Felix Rivera-Molina,  Maohan Su,  Phylicia Kidd, James E Rothman,  Derek Toomre,  Joerg Bewersdorf

Atlas of Plasmodium falciparum intraerythrocytic development using expansion microscopy

 Benjamin Liffner,  Ana Karla Cepeda Diaz,  James Blauwkamp,  David Anaguano,  Sonja Frölich,  Vasant Muralidharan,  Danny W. Wilson,  Jeffrey Dvorin,  Sabrina Absalon

MSCProfiler: An image processing workflow to investigate Mesenchymal Stem Cell heterogeneity using imaging flow cytometry data

 A. Gupta, S. Kausar, L. Balasubramanian,  U. Chakraborty

MSCProfiler: An image processing workflow to investigate Mesenchymal Stem Cell heterogeneity using imaging flow cytometry data.

 Ayona Gupta, Safia Kousar Shaik, Lakshmi Balasubramanian,  Uttara Chakraborty

Gosha: a database of organisms with defined optimal growth temperatures

 Karla Helena-Bueno,  Charlotte R. Brown,  Sergey Melnikov

Automated counting of Drosophila imaginal disc cell nuclei

Pablo Sanchez Bosch, Jeffrey D. Axelrod

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The seventh episode of Made the Same Way, a podcast produced by the Wellcome-funded Human Developmental Biology Initiative, features sociologist and writer Marieke Bigg discussing the ethics of research with early human embryos with Mancunian poet and rapper Meduulla. The pair discuss the legacy of Anne McLaren and muse on future implications of this area of research.

At the end of the episode, the pair collaborate on an original piece of music inspired by their conversation.

“What things can we consider to be right and wrong, and who makes that decision?”

– Meduulla

About the participants

Marieke Bigg writes about bodies and culture. She holds a PhD in Sociology from the University of Cambridge, where she studied the technological transformation of human reproduction, with a focus on Dr Anne McLaren’s role in the human embryo research debates. She now writes both non-fiction and fiction about the cultural dimensions of biology and bodies. In addition to her books, Marieke writes freelance, hosts podcasts and panels, and collaborates with scientists and biologists to discuss and produce art that conjures new social worlds.

Check out some of Marieke’s writing here:

Current Fiction: WAITING FOR TED (Dead Ink Books, Oct 2022)

Upcoming Non-Fiction: THIS WON’T HURT (Hodder, Feb 2023)

Hailing from North Manchester, Meduulla is a 23 year old Zimbabwean-born Rapper, Poet and DJ paving her way through the UK rap scene. Meduulla marries her modern flows and witty lyrics with jazz inspired hip hop instrumentals to create music that reflects the present day whilst carrying a nostalgic air.

Despite having been a writer for 10 years, she only released her first single in 2021 which then led to her appearance on BBC’s The Rap Game UK as a finalist.  Her independently released single, Mish Muulla was selected as Track of the Week on BBC 1Xtra Radio, resulting in Meduulla performing at Reading and Leeds Festival in 2022. The wordsmith is a 2023 Sound and Music Seed Award recipient and her poetry won first prize in TogetherintheUK’s migrant writers competition. Her passion for using her lyricism as a force of positive change continues to be recognised by various cultural organisations.

In 2023, Meduulla will release her debut project entitled Oblongata.

Please subscribe and listen to Made the Same Way on Apple podcasts, Spotify, or wherever you get your podcasts. If you enjoy the podcast, please rate and review us on Apple podcasts to help others find us!

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Gender problems in STEM are familiar to women researchers in every corner of the world. Japan is no exception. In a culture that seeks harmony and balance with people around, where conflict is avoided at all costs, it is often difficult to express someone’s needs. Social pressure is working in very subtle ways. You have an event in a room with photos of the previous heads of the department, twenty or thirty of them, which are all men; you go to a conference and see the overwhelming majority of the keynote speakers being male researchers; you notice the appointed leaders of the diversity and inclusion groups are mostly male when the volunteer groups have hardly any. The hours researchers stay in the laboratory make you feel like you are reliving the same day again and again; the boisterous communication style and jokes and comments are too harsh for you. The passion you once had for research is slowly withering away, leaving you with the feeling of unhappiness and unworthiness, and you give up, thinking that you are not made for this work, you are not a good fit, with a question in your mind: “How did I end up here?”.

I was lucky to grow up in a bubble where science was never gendered, there were no sciences that were inherently for women or men, and there were no subjects that some genders were naturally bad at. My parents were working in science-related areas, and they would divide school subjects between them. My mother would help me with mathematics, chemistry, and biology. My father with English, physics, and music. So, it never occurred to me that there was a need for societies supporting women researchers until I moved to Japan. My intrinsic belief that science is for everyone was challenged by a different culture, where many people of both genders believed otherwise for one reason or another. The confusion and frustration led me to research the problem (what else a scientist can do!?). And what I discovered – amazed me.

The universities in Europe and North America have women in STEM organisations active on social media, organising events, inviting young women scientists, actively connecting, and searching for opportunities to widen the network. These societies are vocal and visible, making the world know they exist. They constantly push for change. There are university-based workshops, training programs, and symposiums specifically for women in research. There is this feeling of women researchers trying to unite and support each other, pave the way for future generations, and improve the working environment.

I wished something like this existed in Japan. Most of the groups I found were quite exclusive: only for students, or mainly in Japanese, with no easily accessible information on how to join and what kind of events they are planning. There was little presence on social media, and you would need to make a targeted search to find them. I rarely hear about women researchers-oriented events or workshops, and yet to hear about women researcher-oriented training university programs.

So, I searched for women researchers’ communities outside the university and found ‘’Women in Science Japan’’, the young community founded by Elizabeth Oda, Dr. Sarah K. Abe and Lauren Hartz in 2019. I looked through their website and joined on the spot. I had a chance to talk with one of the co-founders, Elizabeth, and asked her about the motivation behind creating “Women in Science Japan”:

I and my co-founders created this community to address what we have witnessed as gender inequality in Japan, both the statistics you can often hear in the media and micro- and macroaggressions women experience. We also wanted to start with students and give a voice to students in high schools and universities. Because we knew both from the literature and from our own experience that in Japan, there are many negative stereotypes around women pursuing STEM and girls are discouraged from pursuing these fields from the young age.

Elizabeth says that one of the reasons most people join “Women in Science Japan”, and the one she thinks is very important for the future of the community and hopes to improve – is a mentorship program. That was one of my reasons for joining too. Even without talking about being an international researcher in a country that doesn’t speak your native language and has completely different social structures, finding your way in a field that wasn’t designed for you is difficult. I often feel that mentoring comes naturally to male researchers, whereas women researchers need it even more but receive it very rarely and are expected to figure out many things on their own. The community evolved, and apart from students, it started to focus more on early-career women. Elizabeth notes that it was important to create a space where members can be vulnerable, authentic, and empowered, without the fear of retribution, discipline or ostracisation, to feel heard and to have someone else say, “You are experiencing that too? I thought it was just me.”

The reality is that gender inequality is a systemic problem that an individual person can’t solve, so the idea was to create a culture that is more aware of the issues, willing to discuss the issues, face the issues, and hopefully raise these issues outside of the Women in Science Japan community.

Women in Science Japan now unites scientists, educators, women working in start-ups and the corporate world, and students at high schools and universities. Geology, biology, engineering, IT – all fields of science are welcome. And it is beautiful. It is invigorating to have such diversity, to be with people from all walks of life, with different backgrounds and different life stories. It is empowering and inspiring to hear what fellow members have overcome and where they are heading. It is not easy to be vulnerable and share your story, but if the person decides to do it – it is a treasure, a path for growth for both the person sharing and the person listening.

Women in Science Japan offers various activities: career-related events, mentorship mentioned earlier, casual events, and the book club (!). Elizabeth says that the book club is one of the things she is proud of. The book is chosen by members interested in joining the club and is related to gender inequality, science, and Japan. Currently, the book club is reading “How to Be an Inclusive Leader: Your Role in Creating Cultures of Belonging Where Everyone Can Thrive” by Jennifer Brown, which touches on diversity, equity, and inclusion. Being a part of the book club is a fantastic experience for me. The same text often generates different responses in different people, and this experience is the diversity in action. It is eye-opening to hear what people think and how the same words are heard differently because of the different backgrounds. Reading the book together, rather than alone, creates deep conversations, challenges to see the text from different angles and helps to navigate difficult questions.

I think we can only overcome our hardships and glass ceilings by holding each other’s hands and supporting and helping each other. This is one of the things Women in Science Japan is trying to achieve, a support system to help members to navigate complicated work situations or decisions, get feedback, provide clarity about career paths, and create a network that helps to build their businesses or solve work-related problems, or for international members to settle in Japan. And I wanted to use my chances to speak to the world and encourage women researchers to unite, to join communities like “Women in Science Japan”, to create new communities of like-minded people, say for women scientists in developmental biology or tissue engineering, or working on a specific problem. To be visible, vocal, advocate for your needs, become more confident, and create a welcoming future for the new generations of women in science. Or make a safe space for sharing your thoughts, finding your way, and knowing that you are not alone.

You are very welcome to join “Women in Science Japan” if you are currently working in science-related areas in Japan.

But if you are in countries other than Japan, here are some links that can get you started on your journey of finding a safe space. (Thank you to my fellow correspondents, The Node community manager, and my friends for helping me with this list.)

• A community for R coding women and non-binary: https://rladies.org/
• An Australia-based program:  https://sciencegenderequity.org.au/
• European community for girls and non-binary kids: https://stemettes.org/
• A UK-based community: https://www.wisecampaign.org.uk/
• European community for mothers: https://www.mothersinscience.com/
• The ETH Society for Women in Natural Sciences: https://wins.ethz.ch/
• L’Oréal-UNESCO For Women in Science, the foundation that supports women in science: https://www.forwomeninscience.com/
• Global network for women in STEM: https://awis.org/

* Thank you to my friend Monica for the advice on illustrations.

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“Cancer rates vary wildly across the world, and we don’t know why. To solve this mystery, scientists are tracking down causes of cancer by the fingerprints they leave in the genome”

Dr Kat Arney

In the latest episode of the Genetics Unzipped podcast, we’re chasing down the perpetrator of a scientific Whodunnit with the DNA detectives – the Mutographs of Cancer team, who are on the hunt for the causes of cancer

Genetics Unzipped is the podcast from The Genetics Society. Full transcript, links and references available online at GeneticsUnzipped.com.

Subscribe from Apple podcasts, Spotify, or wherever you get your podcasts.

Head over to GeneticsUnzipped.com to catch up on our extensive back catalogue.If you enjoy the show, please do rate and review on Apple podcasts and help to spread the word on social media. And you can always send feedback and suggestions for future episodes and guests to podcast@geneticsunzipped.com Follow us on Twitter – @geneticsunzip

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In sixth episode of HDBI’s podcast, Made the Same Way, scientist Katie Long explores the topic of human brain development with spoken word artist Harmony.

At the end of the episode, Harmony creates an original spoken word piece based on their conversation.

If we look at every single person’s brain, most of these wrinkles will be in the same place.”

-Katie Long

About the participants

Katie’s lab has been at King’s College London since 2019, and their research focuses on how the human neocortex develops with the correct size, shape and organisation. To address this they use an interdisciplinary approach using human fetal cortex tissue models to look at the cellular and mechanical mechanisms that drive the development of the human neocortex, including the formation of the folds present on the surface of the neocortex, and how dysregulation of these functions can lead to neurodevelopmental disorders. They also use our human fetal tissue culture models to investigate the effect of injury on the developing human brain.

In her spare time, Katie likes to get outdoors and she is a keen cyclist and runner.

Harmony is a spoken word artist who has been interested in the arts since she watched her first movie.

Please subscribe and listen to Made the Same Way on Apple podcasts, Spotify, or wherever you get your podcasts. If you enjoy the podcast, please rate and review us on Apple podcasts to help others find us!

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Lab website: Cell fate, plasticity and reprogramming | Institut Cochin

1. Where is the lab?

The lab is located in the Cochin Institute (14^th arrondissement of Paris), in between la Butte aux Cailles and Montparnasse.

2. Research summary

Antoine: We use the cranial neural crest as a model to understand how cell fate decision and cell plasticity are regulated during embryogenesis. This population presents a remarkable differentiation potential as it gives rise to the entire peripheral nervous system and to most of the craniofacial skeleton. We are also testing whether cranial neural crest plasticity could be harnessed to enhance postnatal bone regeneration.

3. Can you give us a lab roll call, with a sentence including what each person works on and career stage

Jean-Christophe: Engineer – trust in sphere, spend money the PI collect, love, and hate expectation

Saverio: Master2 student – trying to understand neural crest regionalization: cares for his many little spheres, gets happy when they behave nicely, starts shouting in Italian when they do random stuff just to annoy him. 

Martina: Master2 student – trying to not get crazy when she obtains just 5 ng/ul of RNA from 150 spheres, in love with multichannel pipettes

Laura: Postdoc – juggles with differentiating spheres, sees the light at the scope, pipets hard at the bench, wants to understand the tuning of Oct4 for cell plasticity, is driven by curiosity

Antoine: PI – does the paperwork, have multiple meetings every day, jumps and/or dance when new data arrive

4. Favourite technique, and why?

Antoine: Depends on the question we are asking.

If I had to choose it will be genetic lineage tracing. The embryo being the best teacher, this technic provides a clear understanding of the decision made by the cells, and it generates great images.

Then RNA in situ hybridization, works beautifully on whole embryo or sections. Allows to the questions what are cells asking before, during and after they made a choice.

5. Apart from your own research, what are you most excited about in developmental and stem cell biology

Antoine: We are reaching a stage where we are done naming things. We are now able to understand development with equations. The advances of single cell omics will soon allow us to reconstruct an entire embryo in sillico. With this, it will be possible to predict how an environmental or genetic perturbation affects development. This will also allow us to generate several scenarios to rescue the defect, which can be much later than when the problem occurs.

I’m also really excited by the rapid progress made with organoïds. I was skeptical at first, but this is becoming an excellent tool to study basic cell behavior and logic.

6. How do you approach managing your group and all the different tasks required in your job?

Antoine: This is a learning process… I’m a strong believer that science must be fun! We spend so much time and effort doing it we should at least enjoy the process. For it to be fun, this implies scientific rigor, work ethics, good technical skills and simply being humane.

I’m still learning about the different task required by the job! Using the one thing I learnt during my PhD and postdoc which is learning how to learn. Thankfully, I have greats colleagues in the Institute that can help with this!

7. What is the best thing about where you work? 

Jean-Christophe: Multiplicity of help you can hope and offer.

Saverio: Everything in the lab is brand new so every little step feels like a big achievement!

Martina: There is always chocolate!

Laura: The Institute is included in the Université Paris-city network which gives access to all exciting seminars occurring in the network.

Antoine: The Cochin Institute is multidisciplinary which means I learn a lot about various topics which stimulates creativity and open the way to great collaborations on various topics

8. What’s there to do outside of the lab?

Jean-Christophe: Why do you want to do things outside of the lab? Are you not happy here?

Saverio: If you work in research, try climbing. You will meet so many colleagues that you will feel like you never left the lab. Bring your friends!

Martina: Many sunsets along the Seine with a beer.

Laura: We are in Paris, a lot of culture, art, good coffee, much more.

Antoine: Paris is outside the lab, there’s plenty to do! I take care of my kids, which is a second job on itself, and spend time with my family. When I have time, I try to keep doing photography, keeping an eye and the dynamic Parisian Street Art scene.

(3 votes)
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