Your search keyword '"Qin, Baifang"' showing total 7 results

1. Thousands of induced germline mutations affecting immune cells identified by automated meiotic mapping coupled with machine learning

Author

Xu, Darui, Lyon, Stephen, Bu, Chun Hui, Hildebrand, Sara, Choi, Jin Huk, Zhong, Xue, Liu, Aijie, Turer, Emre E., Zhang, Zhao, Russell, Jamie, Ludwig, Sara, Mahrt, Elena, Nair-Gill, Evan, Shi, Hexin, Wang, Ying, Zhang, Duanwu, Yue, Tao, Wang, Kuan-wen, SoRelle, Jeffrey A., Su, Lijing, Misawa, Takuma, McAlpine, William, Sun, Lei, Wang, Jianhui, Zhan, Xiaoming, Choi, Mihwa, Farokhnia, Roxana, Sakla, Andrew, Schneider, Sara, Coco, Hannah, Coolbaugh, Gabrielle, Hayse, Braden, Mazal, Sara, Medler, Dawson, Nguyen, Brandon, Rodriguez, Edward, Wadley, Andrew, Tang, Miao, Li, Xiaohong, Anderton, Priscilla, Keller, Katie, Press, Amanda, Scott, Lindsay, Quan, Jiexia, Cooper, Sydney, Collie, Tiffany, Qin, Baifang, Cardin, Jennifer, Simpson, Rochelle, Tadesse, Meron, Sun, Qihua, Wise, Carol A., Rios, Jonathan J., Moresco, Eva Marie Y., and Beutler, Bruce

Published

2021

2. Obesity caused by an OVOL2 mutation reveals dual roles of OVOL2 in promoting thermogenesis and limiting white adipogenesis

Author

Zhang, Zhao, Jiang, Yiao, Su, Lijing, Ludwig, Sara, Zhang, Xuechun, Tang, Miao, Li, Xiaohong, Anderton, Priscilla, Zhan, Xiaoming, Choi, Mihwa, Russell, Jamie, Bu, Chun-Hui, Lyon, Stephen, Xu, Darui, Hildebrand, Sara, Scott, Lindsay, Quan, Jiexia, Simpson, Rochelle, Sun, Qihua, Qin, Baifang, Collie, Tiffany, Tadesse, Meron, Moresco, Eva Marie Y., and Beutler, Bruce

Published

2022

3. The tomato genome sequence provides insights into fleshy fruit evolution

Author

Sato, Shusei, Tabata, Satoshi, Hirakawa, Hideki, Asamizu, Erika, Shirasawa, Kenta, Isobe, Sachiko, Kaneko, Takakazu, Nakamura, Yasukazu, Shibata, Daisuke, Aoki, Koh, Egholm, Michael, Knight, James, Bogden, Robert, Li, Changbao, Shuang, Yang, Xu, Xun, Pan, Shengkai, Cheng, Shifeng, Liu, Xin, Ren, Yuanyuan, Wang, Jun, Albiero, Alessandro, Dal Pero, Francesca, Todesco, Sara, Van Eck, Joyce, Buels, Robert M., Bombarely, Aureliano, Gosselin, Joseph R., Huang, Minyun, Leto, Jonathan A., Menda, Naama, Strickler, Susan, Mao, Linyong, Gao, Shan, Tecle, Isaak Y., York, Thomas, Zheng, Yi, Vrebalov, Julia T., Lee, JeMin, Zhong, Silin, Mueller, Lukas A., Stiekema, Willem J., Ribeca, Paolo, Alioto, Tyler, Yang, Wencai, Huang, Sanwen, Du, Yongchen, Zhang, Zhonghua, Gao, Jianchang, Guo, Yanmei, Wang, Xiaoxuan, Li, Ying, He, Jun, Li, Chuanyou, Cheng, Zhukuan, Zuo, Jianru, Ren, Jianfeng, Zhao, Jiuhai, Yan, Liuhua, Jiang, Hongling, Wang, Bao, Li, Hongshuang, Li, Zhenjun, Fu, Fuyou, Chen, Bingtang, Han, Bin, Feng, Qi, Fan, Danlin, Wang, Ying, Ling, Hongqing, Xue, Yongbiao, Ware, Doreen, Richard McCombie, W., Lippman, Zachary B., Chia, Jer-Ming, Jiang, Ke, Pasternak, Shiran, Gelley, Laura, Kramer, Melissa, Anderson, Lorinda K., Chang, Song-Bin, Royer, Suzanne M., Shearer, Lindsay A., Stack, Stephen M., Rose, Jocelyn K. C., Xu, Yimin, Eannetta, Nancy, Matas, Antonio J., McQuinn, Ryan, Tanksley, Steven D., Camara, Francisco, Guigó, Roderic, Rombauts, Stephane, Fawcett, Jeffrey, Van de Peer, Yves, Zamir, Dani, Liang, Chunbo, Spannagl, Manuel, Gundlach, Heidrun, Bruggmann, Remy, Mayer, Klaus, Jia, Zhiqi, Zhang, Junhong, Ye, Zhibiao, Bishop, Gerard J., Butcher, Sarah, Lopez-Cobollo, Rosa, Buchan, Daniel, Filippis, Ioannis, Abbott, James, Dixit, Rekha, Singh, Manju, Singh, Archana, Kumar Pal, Jitendra, Pandit, Awadhesh, Kumar Singh, Pradeep, Kumar Mahato, Ajay, Dogra, Vivek, Gaikwad, Kishor, Raj Sharma, Tilak, Mohapatra, Trilochan, Kumar Singh, Nagendra, Causse, Mathilde, Rothan, Christophe, Schiex, Thomas, Noirot, Céline, Bellec, Arnaud, Klopp, Christophe, Delalande, Corinne, Berges, Hélène, Mariette, Jérôme, Frasse, Pierre, Vautrin, Sonia, Zouine, Mohamed, Latché, Alain, Rousseau, Christine, Regad, Farid, Pech, Jean-Claude, Philippot, Murielle, Bouzayen, Mondher, Pericard, Pierre, Osorio, Sonia, Fernandez del Carmen, Asunción, Monforte, Antonio, Granell, Antonio, Fernandez-Muñoz, Rafael, Conte, Mariana, Lichtenstein, Gabriel, Carrari, Fernando, De Bellis, Gianluca, Fuligni, Fabio, Peano, Clelia, Grandillo, Silvana, Termolino, Pasquale, Pietrella, Marco, Fantini, Elio, Falcone, Giulia, Fiore, Alessia, Giuliano, Giovanni, Lopez, Loredana, Facella, Paolo, Perrotta, Gaetano, Daddiego, Loretta, Bryan, Glenn, Orozco, Modesto, Pastor, Xavier, Torrents, David, van Schriek, Marco G. M., Feron, Richard M.C., van Oeveren, Jan, de Heer, Peter, daPonte, Lorena, Jacobs-Oomen, Saskia, Cariaso, Mike, Prins, Marcel, van Eijk, Michiel J. T., Janssen, Antoine, van Haaren, Mark J. J., Jo, Sung-Hwan, Kim, Jungeun, Kwon, Suk-Yoon, Kim, Sangmi, Koo, Dal-Hoe, Lee, Sanghyeob, Hur, Cheol-Goo, Clouser, Christopher, Rico, Alain, Hallab, Asis, Gebhardt, Christiane, Klee, Kathrin, Jöcker, Anika, Warfsmann, Jens, Göbel, Ulrike, Kawamura, Shingo, Yano, Kentaro, Sherman, Jamie D., Fukuoka, Hiroyuki, Negoro, Satomi, Bhutty, Sarita, Chowdhury, Parul, Chattopadhyay, Debasis, Datema, Erwin, Smit, Sandra, Schijlen, Elio G. W. M., van de Belt, Jose, van Haarst, Jan C., Peters, Sander A., van Staveren, Marjo J., Henkens, Marleen H. C., Mooyman, Paul J. W., Hesselink, Thamara, van Ham, Roeland C. H. J., Jiang, Guoyong, Droege, Marcus, Choi, Doil, Kang, Byung-Cheol, Dong Kim, Byung, Park, Minkyu, Kim, Seungill, Yeom, Seon-In, Lee, Yong-Hwan, Choi, Yang-Do, Li, Guangcun, Gao, Jianwei, Liu, Yongsheng, Huang, Shengxiong, Fernandez-Pedrosa, Victoria, Collado, Carmen, Zuñiga, Sheila, Wang, Guoping, Cade, Rebecca, Dietrich, Robert A., Rogers, Jane, Knapp, Sandra, Fei, Zhangjun, White, Ruth A., Thannhauser, Theodore W., Giovannoni, James J., Angel Botella, Miguel, Gilbert, Louise, Gonzalez, Ramon, Luis Goicoechea, Jose, Yu, Yeisoo, Kudrna, David, Collura, Kristi, Wissotski, Marina, Wing, Rod, Schoof, Heiko, Meyers, Blake C., Bala Gurazada, Aishwarya, Green, Pamela J., Mathur, Saloni, Vyas, Shailendra, Solanke, Amolkumar U., Kumar, Rahul, Gupta, Vikrant, Sharma, Arun K., Khurana, Paramjit, Khurana, Jitendra P., Tyagi, Akhilesh K., Dalmay, Tamas, Mohorianu, Irina, Walts, Brandon, Chamala, Srikar, Brad Barbazuk, W., Li, Jingping, Guo, Hui, Lee, Tae-Ho, Wang, Yupeng, Zhang, Dong, Paterson, Andrew H., Wang, Xiyin, Tang, Haibao, Barone, Amalia, Luisa Chiusano, Maria, Raffaella Ercolano, Maria, D’Agostino, Nunzio, Di Filippo, Miriam, Traini, Alessandra, Sanseverino, Walter, Frusciante, Luigi, Seymour, Graham B., Elharam, Mounir, Fu, Ying, Hua, Axin, Kenton, Steven, Lewis, Jennifer, Lin, Shaoping, Najar, Fares, Lai, Hongshing, Qin, Baifang, Qu, Chunmei, Shi, Ruihua, White, Douglas, White, James, Xing, Yanbo, Yang, Keqin, Yi, Jing, Yao, Ziyun, Zhou, Liping, Roe, Bruce A., Vezzi, Alessandro, D’Angelo, Michela, Zimbello, Rosanna, Schiavon, Riccardo, Caniato, Elisa, Rigobello, Chiara, Campagna, Davide, Vitulo, Nicola, Valle, Giorgio, Nelson, David R., De Paoli, Emanuele, Szinay, Dora, de Jong, Hans H., Bai, Yuling, Visser, Richard G. F., Klein Lankhorst, René M., Beasley, Helen, McLaren, Karen, Nicholson, Christine, Riddle, Claire, and Gianese, Giulio

Published

2012

4. The Medicago genome provides insight into the evolution of rhizobial symbioses

Author

Young, Nevin D., Debellé, Frédéric, Oldroyd, Giles E. D., Geurts, Rene, Cannon, Steven B., Udvardi, Michael K., Benedito, Vagner A., Mayer, Klaus F. X., Gouzy, Jérôme, Schoof, Heiko, Van de Peer, Yves, Proost, Sebastian, Cook, Douglas R., Meyers, Blake C., Spannagl, Manuel, Cheung, Foo, De Mita, Stéphane, Krishnakumar, Vivek, Gundlach, Heidrun, Zhou, Shiguo, Mudge, Joann, Bharti, Arvind K., Murray, Jeremy D., Naoumkina, Marina A., Rosen, Benjamin, Silverstein, Kevin A. T., Tang, Haibao, Rombauts, Stephane, Zhao, Patrick X., Zhou, Peng, Barbe, Valérie, Bardou, Philippe, Bechner, Michael, Bellec, Arnaud, Berger, Anne, Bergès, Hélène, Bidwell, Shelby, Bisseling, Ton, Choisne, Nathalie, Couloux, Arnaud, Denny, Roxanne, Deshpande, Shweta, Dai, Xinbin, Doyle, Jeff J., Dudez, Anne-Marie, Farmer, Andrew D., Fouteau, Stéphanie, Franken, Carolien, Gibelin, Chrystel, Gish, John, Goldstein, Steven, González, Alvaro J., Green, Pamela J., Hallab, Asis, Hartog, Marijke, Hua, Axin, Humphray, Sean J., Jeong, Dong-Hoon, Jing, Yi, Jöcker, Anika, Kenton, Steve M., Kim, Dong-Jin, Klee, Kathrin, Lai, Hongshing, Lang, Chunting, Lin, Shaoping, Macmil, Simone L., Magdelenat, Ghislaine, Matthews, Lucy, McCorrison, Jamison, Monaghan, Erin L., Mun, Jeong-Hwan, Najar, Fares Z., Nicholson, Christine, Noirot, Céline, O’Bleness, Majesta, Paule, Charles R., Poulain, Julie, Prion, Florent, Qin, Baifang, Qu, Chunmei, Retzel, Ernest F., Riddle, Claire, Sallet, Erika, Samain, Sylvie, Samson, Nicolas, Sanders, Iryna, Saurat, Olivier, Scarpelli, Claude, Schiex, Thomas, Segurens, Béatrice, Severin, Andrew J., Sherrier, Janine D., Shi, Ruihua, Sims, Sarah, Singer, Susan R., Sinharoy, Senjuti, Sterck, Lieven, Viollet, Agnès, Wang, Bing-Bing, Wang, Keqin, Wang, Mingyi, Wang, Xiaohong, Warfsmann, Jens, Weissenbach, Jean, White, Doug D., White, Jim D., Wiley, Graham B., Wincker, Patrick, Xing, Yanbo, Yang, Limei, Yao, Ziyun, Ying, Fu, Zhai, Jixian, Zhou, Liping, Zuber, Antoine, Dénarié, Jean, Dixon, Richard A., May, Gregory D., Schwartz, David C., Rogers, Jane, Quétier, Francis, Town, Christopher D., and Roe, Bruce A.

Published

2011

5. Feline Polycystic Kidney Disease Mutation Identified in PKD1

Author

Lyons, Leslie A., Biller, David S., Erdman, Carolyn A., Lipinski, Monika J., Young, Amy E., Roe, Bruce A., Qin, Baifang, and Grahn, Robert A.

Published

2004

6. The Fanconi anemia gene network is conserved from zebrafish to human

Author

Titus, Tom A., Selvig, Daniel R., Qin, Baifang, Wilson, Catherine, Starks, Amber M., Roe, Bruce A., and Postlethwait, John H.

Subjects

*ZEBRA danio, *HEREDITY, *ETIOLOGY of diseases, *PATHOLOGY, *GENETIC research

Abstract

Abstract: Fanconi anemia (FA) is a complex disease involving nine identified and two unidentified loci that define a network essential for maintaining genomic stability. To test the hypothesis that the FA network is conserved in vertebrate genomes, we cloned and sequenced zebrafish (Danio rerio) cDNAs and/or genomic BAC clones orthologous to all nine cloned FA genes (FANCA, FANCB, FANCC, FANCD1, FANCD2, FANCE, FANCF, FANCG, and FANCL), and identified orthologs in the genome database for the pufferfish Tetraodon nigroviridis. Genomic organization of exons and introns was nearly identical between zebrafish and human for all genes examined. Hydrophobicity plots revealed conservation of FA protein structure. Evolutionarily conserved regions identified functionally important domains, since many amino acid residues mutated in human disease alleles or shown to be critical in targeted mutagenesis studies are identical in zebrafish and human. Comparative genomic analysis demonstrated conserved syntenies for all FA genes. We conclude that the FA gene network has remained intact since the last common ancestor of zebrafish and human lineages. The application of powerful genetic, cellular, and embryological methodologies make zebrafish a useful model for discovering FA gene functions, identifying new genes in the network, and identifying therapeutic compounds. [Copyright &y& Elsevier]

Published

2006

7. Duplication and divergence of fgf8 functions in teleost development and evolution.

Author

Jovelin R, He X, Amores A, Yan YL, Shi R, Qin B, Roe B, Cresko WA, and Postlethwait JH

Subjects

Animals, Fishes physiology, Gene Expression Profiling, Gene Expression Regulation, Developmental, Phylogeny, Signal Transduction, Evolution, Molecular, Fibroblast Growth Factors genetics, Fishes embryology, Fishes genetics, Gene Duplication, Genes, Duplicate genetics

Abstract

Fibroblast growth factors play critical roles in many aspects of embryo patterning that are conserved across broad phylogenetic distances. To help understand the evolution of fibroblast growth factor functions, we identified members of the Fgf8/17/18-subfamily in the three-spine stickleback Gasterosteus aculeatus, and investigated their evolutionary relationships and expression patterns. We found that fgf17b is the ortholog of tetrapod Fgf17, whereas the teleost genes called fgf8 and fgf17a are duplicates of the tetrapod gene Fgf8, and thus should be called fgf8a and fgf8b. Phylogenetic analysis supports the view that the Fgf8/17/18-subfamily expanded during the ray-fin fish genome duplication. In situ hybridization experiments showed that stickleback fgf8 duplicates exhibited common and unique expression patterns, indicating that tissue specialization followed the gene duplication event. Moreover, direct comparison of stickleback and zebrafish embryonic expression patterns of fgf8 co-orthologs suggested lineage-specific independent subfunction partitioning and the acquisition or the loss of ortholog functions. In tetrapods, Fgf8 plays an important role in the apical ectodermal ridge of the developing pectoral appendage. Surprisingly, differences in the expression of fgf8a in the apical ectodermal ridge of the pectoral fin bud in zebrafish and stickleback, coupled with the role of fgf16 and fgf24 in teleost pectoral appendage show that different Fgf genes may play similar roles in limb development in various vertebrates., (2007 Wiley-Liss, Inc)

Published

2007