Zobrazeno 1 - 9
of 9
pro vyhledávání: '"Eduardo Serna-Morales"'
Autor:
Stefania Marcotti, Besaiz Jose Sánchez-Sánchez, Eduardo Serna-Morales, Anca Dragu, María-del-Carmen Díaz-de-la-Loza, Yutaka Matsubayashi, Brian Marc Stramer
Publikováno v:
STAR Protocols, Vol 2, Iss 1, Pp 100377- (2021)
Summary: Protein turnover rate is difficult to obtain experimentally. This protocol shows how to mathematically model turnover rates in an intervention-free manner given the ability to quantify mRNA and protein expression from initiation to homeostas
Externí odkaz:
https://doaj.org/article/e802c76edf344d94890a16d327f63f73
Autor:
Eduardo Serna-Morales, Besaiz J. Sánchez-Sánchez, Stefania Marcotti, Angus Nichols, Anushka Bhargava, Anca Dragu, Liisa M. Hirvonen, María-del-Carmen Díaz-de-la-Loza, Matyas Mink, Susan Cox, Emily Rayfield, Rachel M. Lee, Chad M. Hobson, Teng-Leong Chew, Brian M. Stramer
Publikováno v:
Developmental Cell. 58:825-835.e6
Autor:
Eduardo Serna-Morales, Besaiz J. Sánchez-Sánchez, Stefania Marcotti, Anushka Bhargava, Anca Dragu, Liisa M. Hirvonen, María-del-Carmen Díaz-de-la-Loza, Matyas Mink, Susan Cox, Emily Rayfield, Brian M. Stramer
Publikováno v:
bioRxiv
SummaryThe forces controlling tissue morphogenesis are attributed to cellular-driven activities and any role for extracellular matrix (ECM) is assumed to be passive. However, all polymer networks, including ECM, can theoretically develop autonomous s
Autor:
Brian Stramer, Andrei Luchici, Robert G. Endres, Jan Müller, Will Wood, Mubarik Burki, Stefania Marcotti, Eduardo Serna-Morales, Michael Sixt, Lawrence Yolland, Andrew D. Davidson, Linus J. Schumacher, John Robert Davis, Fiona N Kenny, Mark Miodownik
Publikováno v:
Nature cell biology
Yolland, L, Burki, M, Marcotti, S, Luchici, A, Kenny, F N, Davis, J R, Serna-Morales, E, Müller, J, Sixt, M, Davidson, A, Wood, W, Schumacher, L J, Endres, R G, Miodownik, M & Stramer, B M 2019, ' Persistent and polarized global actin flow is essential for directionality during cell migration ', Nature Cell Biology, vol. 21, no. 11, pp. 1370–1381 . https://doi.org/10.1038/s41556-019-0411-5
Yolland, L, Burki, M, Marcotti, S, Luchici, A, Kenny, F N, Davis, J R, Serna-Morales, E, Müller, J, Sixt, M, Davidson, A, Wood, W, Schumacher, L J, Endres, R G, Miodownik, M & Stramer, B M 2019, ' Persistent and polarised global actin flow is essential for directionality during cell migration ', Nature Cell Biology, vol. 21, no. 11, pp. 1370–1381 . https://doi.org/10.1038/s41556-019-0411-5
Nature Cell Biology
Yolland, L, Burki, M, Marcotti, S, Luchici, A, Kenny, F N, Davis, J R, Serna-Morales, E, Müller, J, Sixt, M, Davidson, A, Wood, W, Schumacher, L J, Endres, R G, Miodownik, M & Stramer, B M 2019, ' Persistent and polarized global actin flow is essential for directionality during cell migration ', Nature Cell Biology, vol. 21, no. 11, pp. 1370–1381 . https://doi.org/10.1038/s41556-019-0411-5
Yolland, L, Burki, M, Marcotti, S, Luchici, A, Kenny, F N, Davis, J R, Serna-Morales, E, Müller, J, Sixt, M, Davidson, A, Wood, W, Schumacher, L J, Endres, R G, Miodownik, M & Stramer, B M 2019, ' Persistent and polarised global actin flow is essential for directionality during cell migration ', Nature Cell Biology, vol. 21, no. 11, pp. 1370–1381 . https://doi.org/10.1038/s41556-019-0411-5
Nature Cell Biology
Cell migration is hypothesized to involve a cycle of behaviours beginning with leading edge extension. However, recent evidence suggests that the leading edge may be dispensable for migration, raising the question of what actually controls cell direc
Autor:
Brian Stramer, Yutaka Matsubayashi, María-del-Carmen Díaz-de-la-Loza, Eduardo Serna-Morales, Anca Dragu, Besaiz J Sánchez-Sánchez, Stefania Marcotti
Publikováno v:
STAR Protocols, Vol 2, Iss 1, Pp 100377-(2021)
STAR Protocols
STAR Protocols
Summary Protein turnover rate is difficult to obtain experimentally. This protocol shows how to mathematically model turnover rates in an intervention-free manner given the ability to quantify mRNA and protein expression from initiation to homeostasi
Autor:
Brian Stramer, Eduardo Serna-Morales, Besaiz J Sánchez-Sánchez, Stefania Marcotti, Anca Dragu, María-del-Carmen Díaz-de-la-Loza, Yutaka Matsubayashi, Gema Vizcay-Barrena, Roland A. Fleck
Publikováno v:
Developmental Cell
Matsubayashi, Y, Sánchez Sánchez, B, Marcotti, S, Serna Morales, E, Dragu, A, Díaz-de-la-Loza, M-C, Vizcay-Barrena, G, Fleck, R & Stramer, B 2020, ' Rapid homeostatic turnover of embryonic ECM during tissue morphogenesis ', Developmental Cell, vol. 54, no. 1, pp. 33-42.e9 . https://doi.org/10.1016/j.devcel.2020.06.005
Matsubayashi, Y, Sánchez Sánchez, B, Marcotti, S, Serna Morales, E, Dragu, A, Díaz-de-la-Loza, M-C, Vizcay-Barrena, G, Fleck, R & Stramer, B 2020, ' Rapid homeostatic turnover of embryonic ECM during tissue morphogenesis ', Developmental Cell, vol. 54, no. 1, pp. 33-42.e9 . https://doi.org/10.1016/j.devcel.2020.06.005
Summary The extracellular matrix (ECM) is a polymer network hypothesized to form a stable cellular scaffold. While the ECM can undergo acute remodeling during embryogenesis, it is experimentally difficult to determine whether basal turnover is also i
SummaryInteractions between different cell-types can induce distinct contact inhibition of locomotion (CIL) responses that are hypothesized to control population-wide behaviors during embryogenesis [1, 2]. However, our understanding of the signals th
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e27f25943f0e0c91e02c0357c4ecd6f0
https://doi.org/10.1101/373696
https://doi.org/10.1101/373696
Autor:
Jacob, Beal, Trac Haddock Angellii, Markus, Gershater, Kim de Mora, Meagan, Lizarazo, Jim, Hollenhorst, Randy, Rettberg, Philipp, Demling, Rene, Hanke, Michae, Osthegel, Anna, Schechtel, Suresh, Sudarsan, Arne, Zimmermann, Bartosz, Gabryelczyk, Martina, Ikonen, Minnamari, Salmela, Muradıye, Acar, Muhammed Fatih Aktas, Furkan, Bestepe, Furkan Sacit Ceylan, Sadık, Cigdem, Mikail, Dohan, Mustafa, Elitok, Mehmet, Gunduz, Esra, Gunduz, Omer Faruk Hatipoglu, Turan, Kaya, Orhan, Sayin, Safa, Tapan, Osman Faruk Tereci, Abdullah, Uçar, Mustafa, Yilmaz, Jeffrey, Barrick, Alex, Gutierrez, Dennis, Mishler, Jordan, Monk, Kate, Mortensen, Nathan, Shin, Ella, Watkins, Yintong, Chen, Yuji, Jin, Yuanjie, Shi, Haoqian Myelin Zhang, Bruno, Ono, Ieda Maria Martinez Paino, Lais, Ribovski, Ivan, Silva, Danilo Keiji Zampronio, Nils, Birkholz, Rudiger Frederik Busche, Oliver, Konzock, Steffen, Lippold, Carsten, Ludwig, Melanie, Philippi, Lukas, Platz, Christian, Sigismund, Susanne, Weber, Maren, Wehrs, Niels, Werchau, Anna, Wronska, Zen Zen Yen, Yash, Agarwal, Evan, Appleton, Douglas, Densmore, Ariela, Esmurria, Kathleen, Lewis, Alan, Pacheco, Marcel, Bruchez, Danielle, Peters, Cheryl, Telmer, Lena, Wang, Silvia Canas Duarte, Daniel Giraldo Perez, Camilo Gomez Garzon, Jorge Madrid Wolff, Nathaly Marin Medina, Valentina, Mazzanti, Laura Rodriguez Forero, Eitan, Scher, Robin, Dowell, Samantha, O’Hara, Cloe Simone Pogoda, Kendra, Shattuck, Ali, Altintas, Anne Pihl Bali, Rasmus, Bech, Anne, Egholm, Anne Sofie Laerke Hansen, Kristian, Jensen, Kristian Barreth Karlsen, Caroline, Mosbech, Sophia, Belkhelfa, Noemie, Berenger, Romain, Bodinier, Cecile, Jacry, Laura Matabishi Bibi, Pierre, Parutto, Julie, Zaworski, Andries de Vries, Freek de Wijs, Rick, Elbert, Lisa, Hielkema, Chandhuru, Jagadeesan, Bayu, Jayawardhana, Oscar, Kuipers, Anna, Lauxen, Thomas, Meijer, Sandra, Mous, Renske van Raaphorst, Aakanksha, Saraf, Otto, Schepers, Oscar, Smits, Jan Willem Veening, Ruud Detert Oude Weme, Lianne, Wieske, Catherine, Ainsworth, Xenia Spencer Milnes, Alejandro, Gómezávila, Eddie Cano Gamez, Ana Laura Torres Huerta, Carlos Alejandro Meza Ramirez, Philipp, Popp, Jara, Radeck, Anna, Sommer, Xiangkai, Li, Qi, Wu, Hongxia, Zhao, Ruixue, Zhao, Irem, Bastuzel, Yasemin, Ceyhan, Mayda, Gursel, Burak, Kizil, Ilkem, Kumru, Yasemin, Kuvvet, Helin, Tercan, Seniz, Yuksel, Luiza, Niyazmetova, Timothy, Ang, Lucas, Black, Ciaran, Kelly, George, Wadhams, Clovis, Basier, Urszula, Czerwinska, Cindy Suci Ananda, Muhammad Al Azhar, Adelia, Elviantari, Maya, Fitriana, Arief Budi Witarto, Yuliant, Jia Fangxing, Qingfeng, Hou, Wan, Pei, Chen, Rifei, Wang, Rong, Huang, Wei, Zhang, Yushan, Jianguo, He, Dengwen, Lai, Pai, Li, Jianheng, Liu, Chunyang, Ni, Qianbin, Zhang, Cinthya, Cadenas, Zardain Canabal, Eduardo J., Claudia Nallely Alonso Cantu, Mercedes Alejandra Vazquez Cantu, Eduardo Cepeda Canedo, Cesar Miguel Valdez Cordova, Jose Alberto de la Paz Espinosa, Carlos Enrique Alavez Garcia, Ana Laura Navarro Heredia, Adriana, Hernandez, Sebastian Valdivieso Jauregui, Eduardo Ramirez Montiel, Eduardo Serna Morales, Yamile Minerva Castellanos Morales, Omar Alonso Cantu Pena, Ramirez Rodríguez, Eduardo A., Elizabeth Vallejo Trejo, Jesus Gilberto Rodriguez Ceja, Jesus Eduardo Martinez Hernandez, Mario Alberto Pena Hernandez, Enrique Amaya Perez, Rebeca Paola Torres Ramirez, Cla, J., Martin, Hanzel, Sarah Mohand Said, Shihab, Sawar, Dylan, Siriwardena, Alex, Tzahristos, Nils, Anlind, Martin, Friberg, Erik, Gullberg, Stephanie, Herman, Dallin, Christensen, Sara, Gertsch, Cody, Maxfield, Charles, Miller, Ryan, Putman, Christine, Bauerl, Estelles Lopez, Lucia T., Estefania Huet Trujillo, Marta Vazquez Vilar, Marlène Sophie Birk, Nico, Claassens, Walter de Koster, Rik van Rosmalen, Wen Ying Wu, Sian, Davies, Dan, Goss, William, Rostain, Chelsey, Tye, Waqar, Yousaf, Natalie, Farny, Chloe, Lajeunesse, Alex, Turland, Chen, An, Jielin, Chen, Yahong, Chen, Zehua, Che, Baishan, Fang, Xiaotong, Fu, Xifeng, Guo, Yue, Jiang, Yiying, Lei, Jianqiao, Li, Zhe, Li, Chang, Liu, Weibing, Liu, Yang, Li, Yizhu, Lv, Qingyu, Ruan, Yue, Su, Chun, Tang, Yushen, Wang, Fan, Wu, Xiaoshan, Yan, Ruihua, Zhang, Tangduo, Zhang, Farren, Isaacs, Ariel Leyva Hernandez, Natalie, Ma, Stephanie, Mao, Yamini, Naidu, Tuukka, Miinalainen, Marion Aruann, Daniel Calendini, Yoann Chabert, Gael Chambonnier, Myriam, Choukour, Ella de Gaulejac, Camille, Houy, Axel, Levier, Loreen, Logger, Sebastien, Nin, Valerie, Prima, Sturgis, James N., Beibei, Fang, Sadik, Cigdem, Abdullah, Ucar, Alejandro, Gutierrez, Revanth, Poondla, Sanjana, Reddy, Tyler, Rocha, Natalie, Schulte, Devin, Wehle, Marta Eva Jackowski, Sean Ross Craig, Ariana Mirzarafie Ahi, Elliott, Parris, Luba, Prout, Barbara, Steijl, Rachel, Wellman, Zhao, Fan, Zhang, Jing, Yang, Wei, Yang, Yuanzhan, Wen, Zhaosen, Evan, Appletion, Jeffrey, Chen, Abha, Patil, Shaheer, Priracha, Kate, Ryan, Nick, Salvador, John, Viola, Boralli, Camila Maria S., Camila Barbosa Bramorski, Juliana Cancino Bernardi, Ana Laura de Lima, Paula Maria Pincela Lins, Cristiane Casonato Melo, Deborah Cezar Mendonca, Thiago, Mosqueiro, Everton, Silva, Graziele, Vasconcelos, Ruchi, Asthana, Donna, Lee, Michelle, Yu, Peter, Choi, Effie, Lau, Kenneth, Lau, Oscar, Ying, Brandon, Malone, Paul, Young, Aidan, Ceney, Dakota, Hawthorne, Sharon, Lian, Sam, Mellentine, Dylan, Miller, Barbara Castro Moreira, Christie, Peebles, Olivia, Smith, Kevin, Walsh, Allison, Zimont, Michael, Brasino, Michael, Donovan, Hannah, Young, Jan, Bejvl, Daniel, Georgiev, Hynek, Kasl, Katerina Pechotova, Vaclav Pelisek, Anna, Sosnova, Pavel, Zach, Anthony, Ciesla, Benjamin, Hoover, Elliott, Chapman, Jon Marles Wright, Vicky, Moynihan, Liusaidh, Owen, Brooke Rothschild Mancinelli, Emilie, Cuillery, Joseph, Heng, Vincent, Jacquot, Paola, Malsot, Rocco, Meli, Cyril, Pulver, Ari, Sarfatis, Loic, Steiner, Victor, Steininger, Nina van Tiel, Gregoire, Thouvenin, Axel, Uran, Lisa, Baumgartner, Anna, Fomitcheva, Daniel, Gerngross, Verena, Jagger, Michael, Meier, Anja, Michel, Jasmine, Bird, Bradley, Brown, Todd, Burlington, Daniel, Herring, Joseph, Slack, Georgina, Westwood, Emilia, Wojcik, Julian, Bender, Julia, Donauer, Ramona, Emig, Rabea, Jesser, Julika, Neumann, Lara, Stuhn, Takema, Hasegawa, Tomoya, Kozakai, Haruka, Maruyama, Sean, Colloms, Charlotte, Flynn, Vilija, Lomeikaite, James, Provan, Kang, Ning, Shuyan, Tang, Guozhao, Wu, Yunjun, Yang, Zhi, Zeng, Zhan, Yi, Pan, Chu, Jun, Li, Keji, Yan, Athale, Chaitanya A., Swapnil, Bodkhe, Manasi, Gangan, Harsh, Gakhare, Yash, Jawale, Snehal, Kadam, Prachiti, Moghe, Gayatri, Mundhe, Neha, Khetan, Ira, Phadke, Prashant, Uniyal, Siddhesh, Zadey, Ines, Cottignie, Eline, Deprez, Astrid, Deryckere, Jasper, Janssens, Frederik, Jonnaert, Katarzyna, Malczewska, Thomas, Pak, Johan, Robben, Ovia Margaret Thirukkumaran, Vincent Van Deuren, Laurens, Vandebroek, Laura Van Hese, Laetitia Van Wonterghem, Leen, Verschooten, Moritz, Wolter, Joss, Auty, Richard, Badge, Liam, Crawford, Raymond, Dalgleish, Amy, Evans, Cameron, Grundy, Charlie, Kruczko, Payal, Karia, Graeme, Glaister, Rhys, Hakstol, Seme, Mate, Karin, Otero, Dustin, Smith, Jeff, Tingley, Hans Joachim Wieden, Haotian, Wang, Ningning, Yao, Matthias, Franz, Anna, Knoerlein, Nicolas, Koutsoubelis, Loechner, Anne C., Max, Mundt, Alexandra, Richter, Oliver, Schauer, Marjorie, Buss, Sivateja, Tangirala, Brian, Teague, Tianyi, Huang, Xinhao, Song, Yibing, Wei, Zhaoran, Zhang, Longzhi, Cao, Cheng Li, Kang Yang, Zhiqin, Chen, Yuxing, Fang, Libo, Sun, Weiyi, Wang, Yang, Yang, David, Adams, Joshua, Colls, Joshua, Timmons, David, Urick, Julia Anna Adrian, Madina, Akan, Youssef, Chahibi, Rahmi, Lale, Typhaine Le Doujet, Marit Vaagen Roee, Altynay, Abdirakhmanova, Askarbek, Orakov, Azhar, Zhailauova, Jinyang, Liang, Yu, Ma, Qikai, Qin, Yetian, Su, Ju Yeon Han, Raphaella, Hull, Wei Chung Kong, Li Chieh Lu, Duke, Quinton, Pauline, Aubert, Johan, Bourdarias, Olivier, Bugaud, Coralie Demon Chaine, Isabelle, Hatin, Ibtissam Kaid Slimane, Seong Koo Kang, Audrey, Moatti, Cheikh Fall Ndiaye, Mathilde, Ananos, Alexander, Arkhipenko, Valentin, Bailly, Jules, Caput, Javier, Castillo, Alma Chapet Batlle, Floriane, Cherrier, Claudia Demarta Gatsi, Deshmukh, Gopaul, Muriel, Gugger, Caroline, Lambert, Lucas, Krauss, Amelie, Vandendaele, Xiaojing, Li, Lin, Xiaomei, Luo Xunxun, Anders C. h. r. Hansen, Tina, Kronborg, Pettersen, Jens S., Charles, Calvet, Tyler Dae Devlin, Kosuke, Fujishima, Danny, Greenberg, Tina, Ju, Ryan, Kent, Daniel, Kunin, Erica, Lieberman, Griffin, Mccutcheon, Thai, Nguyen, Lynn, Rothschild, Shih, Joseph D., Jack, Takahashi, Kirsten, Thompson, Forrest, Tran, Daniel, Xiang, Felix, Richter, Yang, Xiaoran, Xiangyue, Hu, Changyuan, Deng, Shuyu, Hua, Yumeng, Li, Xinyu, Meng, Boxiang, Wang, Yingqi, Wang, Xuan, Wang, Zixuan, Xu, Jieyu, Yan, Ming, Yan, Yineng, Zhou, Edgar Alberto Alcalá Orozco, José Alberto Cristerna Bermúdez, Daniela Flores Gómez, José Ernesto Hernández Castañeda, Diana Clarisse Montaño Navarro, Juana Yessica PérezÁvila, María Fernanda Salazar Figueroa, María Fernanda Sánchez Arroyo, Oliva Angélica Sánchez Montesinos, Ángel Farid Rojas Cruz, Carlos Ramos Gutiérrez, Alonso Pérez Lona, Carlos Alejandro Meza Ramírez, Fernanda Sotomayor Olivares, Jorge Sebastián Rodríguez Iniesta, Juan Carlos Rueda Silva, Shotaro, Ayukawa, Takahiro, Kashiwagi, Daisuke, Kiga, Misa, Minegishi, Riku, Shinohara, Hiraku, Tokuma, Yuta, Yamazaki, Shuhei, Yasunishi, Erinn Sim Zixuan, Remsha, Afzal, Matthew, Carrigan, Barry, Moran, Marlena, Mucha, Arnas, Petrauskas, Stefan, Marsden, Michelle, Post, Anne, Rodenburg, Hector, Sanguesa, Marit van der Does, Erwin van Rijn, Max van’t Hof, Yeshi de Bruin, Hans de Ferrante, Elles, Elschot, Laura, Jacobs, Jan Willem Muller, Sjoerd, Nooijens, Femke, Vaassen, Cas van der Putten, Esther van Leeuwen, Laura van Smeden, Kwan Kwan Zhu, Kevin, Sabath, Katharina, Sporbeck, Nicolai von Kügelgen, Lisa, Wellinger, Stefanie, Braun, Jack, Ho, Yash, Mishra, Mariola, Sebastian, Lucas von Chamier, Ahsan, Fasih M., Satyadi, Megan A., Vivienne, Gunadhi, Phillip, Kyriakakis, Jenny, Lee, Walter, Thavarajah, Kimia, Abtahi, Robert, Hand, Chun Mun Loke, Adam, Wahab, Iowis, Zhu, Del Bianco, Cristina, Chizzolini, Fabio, Elisa, Godino, Lentini, Roberta, Mansy, Sheref Samir, Yeh Martin, Noel, Claudio Oss Pegorar, Alexander, Cook, Timothy, Kerns, Chad, Nielsen, Michael, Paskett, Alexander, Torgesen, Stephen, Lee, Ophir, Ospovat, Sikandar, Raza, Daniel, Shaykevich, Jarrod, Shilts, Barbora, Bajorinaite, Mykolas, Bendorius, Ieva, Rauluseviciute, Ieva, Savickyte, Sarunas, Tumas, William, Buchser, Elli, Cryan, Caroline, Golino, Andrew, Halleran, Taylor, Jacobs, Michael, Lefew, Joe, Maniaci, John, Marken, Margaret, Saha, Panya, Vij, Kayla, Desanty, Julie, Mazza
Publikováno v:
PLoS ONE
PLoS ONE, Public Library of Science, 2016, 11 (3), pp.e0150182. ⟨10.1371/journal.pone.0150182⟩
PloS one, vol 11, iss 3
BASE-Bielefeld Academic Search Engine
PLoS ONE, Vol 11, Iss 3, p e0150182 (2016)
PLOS ONE
PLoS ONE, 11(3):e0150182. PUBLIC LIBRARY SCIENCE
PLoS ONE, 11 (3)
PLoS ONE, Public Library of Science, 2016, 11 (3), pp.e0150182. ⟨10.1371/journal.pone.0150182⟩
PloS one, vol 11, iss 3
BASE-Bielefeld Academic Search Engine
PLoS ONE, Vol 11, Iss 3, p e0150182 (2016)
PLOS ONE
PLoS ONE, 11(3):e0150182. PUBLIC LIBRARY SCIENCE
PLoS ONE, 11 (3)
We present results of the first large-scale interlaboratory study carried out in synthetic biology, as part of the 2014 and 2015 International Genetically Engineered Machine (iGEM) competitions. Participants at 88 institutions around the world measur
Autor:
Simon, Brayford, Fiona N, Kenny, Toru, Hiratsuka, Eduardo, Serna-Morales, Lawrence, Yolland, Andrei, Luchici, Brian M, Stramer
Publikováno v:
Journal of Cell Science
Brayford, S, Kenny, F N, Hiratsuka, T, Serna Morales, E, Yolland, L, Luchici, A & Stramer, B M 2019, ' Heterotypic contact inhibition of locomotion can drive cell sorting between epithelial and mesenchymal cell populations ', Journal of Cell Science, vol. 132, no. 11, jcs223974 . https://doi.org/10.1242/jcs.223974
Brayford, S, Kenny, F N, Hiratsuka, T, Serna Morales, E, Yolland, L, Luchici, A & Stramer, B M 2019, ' Heterotypic contact inhibition of locomotion can drive cell sorting between epithelial and mesenchymal cell populations ', Journal of Cell Science, vol. 132, no. 11, jcs223974 . https://doi.org/10.1242/jcs.223974
Interactions between different cell types can induce distinct contact inhibition of locomotion (CIL) responses that are hypothesised to control population-wide behaviours during embryogenesis. However, our understanding of the signals that lead to ce