Journal ArticleDOI
GETDB, a database compiling expression patterns and molecular locations of a collection of gal4 enhancer traps
Shigeo Hayashi,Kei Ito,Yukiko Sado,Misako Taniguchi,Ai Akimoto,Hiroko Takeuchi,Toshiro Aigaki,Fumio Matsuzaki,Hideki Nakagoshi,Teiichi Tanimura,Ryu Ueda,Ryu Ueda,Ryu Ueda,Tadashi Uemura,Motojiro Yoshihara,Satoshi Goto,Satoshi Goto,Satoshi Goto +17 more
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This book aims to provide a chronology of key events and researchers' activities in the development of homosexuality, bisexuality, and related disorders over a period of 50 years.Abstract:
Shigeo Hayashi,* Kei Ito, Yukiko Sado, Misako Taniguchi, Ai Akimoto, Hiroko Takeuchi, Toshiro Aigaki, Fumio Matsuzaki, Hideki Nakagoshi, Teiichi Tanimura, Ryu Ueda, Tadashi Uemura, Motojiro Yoshihara, and Satoshi Goto National Institute of Genetics, Mishima, Shizuoka-ken, Japan Department of Genetics, Graduate University for Advanced Studies, Mishima, Shizuoka-ken, Japan Riken Center for Developmental Biology, Kobe, Hyogo, Japan National Institute for Basic Biology Myodaiji, Okazaki, Aichi, Japan Department of Biology, Tokyo Metropolitan University, Tokyo, Japan Department of Developmental Neurobiology, Institute of Development, Aging and Cancer, Tohoku University, Aoba-ku, Sendai, Japan Okayama University Graduate School of Natural Science and Technology, Okayama, Japan Department of Biology, Graduate School of Sciences, Kyushu University, Ropponmatsu, Fukuoka, Japan Mitsubishi Kagaku Institute of Life Sciences, Tokyo, Japan Laboratory of Molecular Genetics, Institute for Virus Research, Kyoto University, Kyoto, Japan Center for Learning and Memory, Massachusetts Institute of Technology, Cambridge, Massachusetts, USAread more
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GAL4 system in Drosophila: a fly geneticist's Swiss army knife.
TL;DR: The GAL4/UAS system in Drosophila is reviewed and the numerous extensions that have morphed it into a veritable Swiss army knife for the analysis of gene function are reviewed.
Journal ArticleDOI
Molecular, anatomical, and functional organization of the Drosophila olfactory system
TL;DR: These Or expression and ORN connectivity maps provide further insight into the molecular, anatomical, and functional organization of the Drosophila olfactory system and provide an essential resource for investigating how internal odor representations are generated and how they are further processed and transmitted to higher brain centers.
Journal ArticleDOI
Genetic dissection of neural circuits.
TL;DR: Progress in the genetic analysis of neural circuits is reviewed and directions for future research and development are discussed, including genetic approaches to nongenetic systems such as primates.
Journal ArticleDOI
The Q System: A Repressible Binary System for Transgene Expression, Lineage Tracing, and Mosaic Analysis
Christopher Potter,Bosiljka Tasic,Bosiljka Tasic,Emilie V. Russler,Emilie V. Russler,Liang Liang,Liang Liang,Liqun Luo,Liqun Luo +8 more
TL;DR: The utility of the new repressible binary expression system based on the regulatory genes from the Neurospora qa gene cluster is demonstrated in determining cell division patterns of a neuronal lineage and gene function in cell growth and proliferation, and in dissecting neurons responsible for olfactory attraction.
Journal ArticleDOI
Neuronal assemblies of the Drosophila mushroom body.
TL;DR: The laminar arrangement of the Kenyon cell axons and segmented organization of the MBENs together divide the lobes into smaller synaptic units, possibly facilitating characteristic interaction between intrinsic and extrinsic neurons in each unit for different functional activities along the longitudinal lobe axes and between lobes.
References
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Basic Local Alignment Search Tool
TL;DR: A new approach to rapid sequence comparison, basic local alignment search tool (BLAST), directly approximates alignments that optimize a measure of local similarity, the maximal segment pair (MSP) score.
Journal ArticleDOI
Targeted gene expression as a means of altering cell fates and generating dominant phenotypes.
Andrea H. Brand,Norbert Perrimon +1 more
TL;DR: The GAL4 system, a system for targeted gene expression that allows the selective activation of any cloned gene in a wide variety of tissue- and cell-specific patterns, has been designed and used to expand the domain of embryonic expression of the homeobox protein even-skipped.
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The genome sequence of Drosophila melanogaster
Mark Raymond Adams,Susan E. Celniker,Robert A. Holt,Cheryl A. Evans,Jeannine D. Gocayne,Peter Amanatides,Steve Scherer,Peter W. Li,Roger A. Hoskins,R. Galle,Reed A. George,Suzanna E. Lewis,Stephen Richards,Michael Ashburner,Scott Henderson,Granger G. Sutton,Jennifer R. Wortman,Mark Yandell,Qing Zhang,Lin Chen,Rhonda C. Brandon,Yu-Hui Rogers,R. Blazej,Mark Champe,Barret D. Pfeiffer,Kenneth H. Wan,Colleen Doyle,E. G. Baxter,Gregg Helt,Catherine R. Nelson,G. L. Gabor Miklos,Josep F. Abril,A. Agbayani,Huijin An,C. Andrews-Pfannkoch,Danita Baldwin,Richard M. Ballew,Anand Basu,James Baxendale,Leyla Bayraktaroglu,Ellen M. Beasley,Karen Beeson,Panayiotis V. Benos,Benjamin P. Berman,D. Bhandari,Slava Bolshakov,Dana Borkova,Michael R. Botchan,John Bouck,Peter Brokstein,Philippe Brottier,Kenneth C. Burtis,Dana A. Busam,Heather Butler,Edouard Cadieu,I. Chandra,J. Michael Cherry,Simon Cawley,Carl Dahlke,Lionel Davenport,P. Davies,B. de Pablos,Arthur L. Delcher,Zuoming Deng,A. Deslattes Mays,Ian M. Dew,Susanne Dietz,Kristina Dodson,Lisa Doup,Michael Downes,Shannon Dugan-Rocha,B. C. Dunkov,Patrick J. Dunn,K. J. Durbin,Carlos Evangelista,Concepcion Ferraz,Steven Ferriera,Wolfgang Fleischmann,Carl Fosler,Andrei Gabrielian,Neha Garg,William M. Gelbart,Kenneth Glasser,A. Glodek,Fangcheng Gong,J. Harley Gorrell,Zhiping Gu,Ping Guan,Michael Harris,Nomi L. Harris,Damon A. Harvey,Thomas J. Heiman,Judith Hernandez,Jarrett Houck,Damon Hostin,K. Houston,Timothy Howland,Ming-Hui Wei,Chinyere Ibegwam,M. Jalali,Francis Kalush,Gary H. Karpen,Zhaoxi Ke,James A. Kennison,K. A. Ketchum,B. E. Kimmel,Chinnappa D. Kodira,Cheryl L. Kraft,Saul A. Kravitz,David Kulp,Zhongwu Lai,Paul Lasko,Yiding Lei,Alexander Levitsky,Jun Li,Zhenya Li,Yunye Liang,Xiaoying Lin,Xiangjun Liu,B. Mattei,Tina C. McIntosh,Michael P. McLeod,D. McPherson,Gennady V. Merkulov,Natalia Milshina,Clark M. Mobarry,J. Morris,A. Moshrefi,Stephen M. Mount,Mee Moy,Brian Murphy,Lee Murphy,Donna M. Muzny,David L. Nelson,David R. Nelson,Keith Nelson,K. Nixon,Deborah R. Nusskern,Joanne Pacleb,Michael J. Palazzolo,G. S. Pittman,Sue Pan,J. Pollard,Vinita Puri,Martin G. Reese,Knut Reinert,Karin A. Remington,Robert D. C. Saunders,Robert D. C. Saunders,F. Scheeler,H. Shen,B. Christopher Shue,Inga Siden-Kiamos,Michael Simpson,Marian P. Skupski,Thomas J. Smith,Eugene G. Spier,Allan C. Spradling,Mark Stapleton,Renee Strong,E. Sun,Robert Svirskas,C. Tector,Russell Turner,Eli Venter,Aihui Wang,Xianyuan Wang,Zhen Yuan Wang,David A. Wassarman,George M. Weinstock,Jean Weissenbach,Sherita Williams,Trevor Woodage,Kim C. Worley,D. Wu,Shih-Hung Yang,Q. Alison Yao,Jane Ye,R. F. Yeh,Jayshree Zaveri,Ming Zhan,Gefei Zhang,Qi Zhao,Liansheng Zheng,Xiangqun Zheng,Fei Zhong,Wenyan Zhong,X. Zhou,Shiaoping C. Zhu,Xiancan Zhu,Hamilton O. Smith,Richard A. Gibbs,Eugene W. Myers,Gerald M. Rubin,J. Craig Venter +194 more
TL;DR: The nucleotide sequence of nearly all of the approximately 120-megabase euchromatic portion of the Drosophila genome is determined using a whole-genome shotgun sequencing strategy supported by extensive clone-based sequence and a high-quality bacterial artificial chromosome physical map.
Journal ArticleDOI
The Berkeley Drosophila Genome Project gene disruption project: Single P-element insertions mutating 25% of vital Drosophila genes.
Allan C. Spradling,David B. Stern,Amy Beaton,E J Rhem,Todd R. Laverty,N Mozden,Sima Misra,Gerald M. Rubin +7 more
TL;DR: The results show that Drosophila genes have a wide range of sensitivity to inactivation by P elements, and provide a rationale for greatly expanding the BDGP primary collection based entirely on insertion site sequencing, and predict that this approach can bring >85% of all Dosophila open reading frames under experimental control.
Journal ArticleDOI
Detection in situ of genomic regulatory elements in Drosophila.
TL;DR: The P-lacZ fusion gene is an efficient tool for the recovery of elements that may regulate gene expression in Drosophila and for the generation of a wide variety of cell-type-specific markers.
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