A GAL4-Driver Line Resource for Drosophila Neurobiology

Arnim Jenett; Gerald Rubin; Teri T.B. Ngo; David Shepherd; Christine Murphy; Heather Dionne; Barrett Pfeiffer; Amanda Cavallaro; Donald Hall; Jennifer Jeter; Nirmal Iyer; Dona Fetter; Joanna Hausenfluck; Hanchuan Peng; Eric T. Trautman; Robert R. Svirskas; Eugene W. Meyers; Zbigniew R. Iwinski; Yoshnori Aso; Gina M. DePasquale; Adrianne Enos; Phuson Hulamm; Shing Chun Benny Lam; Hsing-Hsi Li; Todd Laverty; Fuhui Long; Lei Qu; Sean D. Murphy; Conrad Rokicki; Todd Safford; Kshiti Shaw; Julie H. Simpson; Allison Sowell; Susana Tae; Yang Yu; Christopher T. Zugates

doi:10.1016/j.celrep.2012.09.011

A GAL4-Driver Line Resource for Drosophila Neurobiology

Arnim Jenett
, Gerald Rubin
, Teri T.B. Ngo
, David Shepherd
, Christine Murphy
, Heather Dionne
, Barrett Pfeiffer
, Amanda Cavallaro
, Donald Hall
, Jennifer Jeter
, Nirmal Iyer
, Dona Fetter
, Joanna Hausenfluck
, Hanchuan Peng
, Eric T. Trautman
, Robert R. Svirskas
, Eugene W. Meyers
, Zbigniew R. Iwinski
, Yoshnori Aso
, Gina M. DePasquale

Adrianne Enos, Phuson Hulamm, Shing Chun Benny Lam, Hsing-Hsi Li, Todd Laverty, Fuhui Long, Lei Qu, Sean D. Murphy, Conrad Rokicki, Todd Safford, Kshiti Shaw, Julie H. Simpson, Allison Sowell, Susana Tae, Yang Yu, Christopher T. Zugates

Howard Hughes Medical Institute, Ashburn
Carl Zeiss Microscopy LLC, Thornwood, NY

Research output: Contribution to journal › Article › peer-review

Abstract

We established a collection of 7,000 transgenic lines of Drosophila melanogaster. Expression of GAL4 in each line is controlled by a different, defined fragment of genomic DNA that serves as a transcriptional enhancer. We used confocal microscopy of dissected nervous systems to determine the expression patterns driven by each fragment in the adult brain and ventral nerve cord. We present image data on 6,650 lines. Using both manual and machine-assisted annotation, we describe the expression patterns in the most useful lines. We illustrate the utility of these data for identifying novel neuronal cell types, revealing brain asymmetry, and describing the nature and extent of neuronal shape stereotypy. The GAL4 lines allow expression of exogenous genes in distinct, small subsets of the adult nervous system. The set of DNA fragments, each driving a documented expression pattern, will facilitate the generation of additional constructs for manipulating neuronal function.

Original language	English
Pages (from-to)	991-1001
Number of pages	10
Journal	Cell Reports
Volume	2
Issue number	4
DOIs	https://doi.org/10.1016/j.celrep.2012.09.011
Publication status	Published - 11 Oct 2012

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Jenett, A., Rubin, G., Ngo, T. T. B., Shepherd, D., Murphy, C., Dionne, H., Pfeiffer, B., Cavallaro, A., Hall, D., Jeter, J., Iyer, N., Fetter, D., Hausenfluck, J., Peng, H., Trautman, E. T., Svirskas, R. R., Meyers, E. W., Iwinski, Z. R., Aso, Y., ... Zugates, C. T. (2012). A GAL4-Driver Line Resource for Drosophila Neurobiology. Cell Reports, 2(4), 991-1001. https://doi.org/10.1016/j.celrep.2012.09.011

@article{99ae9d666f5e4a8bbac2cb67e5bf84a1,

title = "A GAL4-Driver Line Resource for Drosophila Neurobiology",

abstract = "We established a collection of 7,000 transgenic lines of Drosophila melanogaster. Expression of GAL4 in each line is controlled by a different, defined fragment of genomic DNA that serves as a transcriptional enhancer. We used confocal microscopy of dissected nervous systems to determine the expression patterns driven by each fragment in the adult brain and ventral nerve cord. We present image data on 6,650 lines. Using both manual and machine-assisted annotation, we describe the expression patterns in the most useful lines. We illustrate the utility of these data for identifying novel neuronal cell types, revealing brain asymmetry, and describing the nature and extent of neuronal shape stereotypy. The GAL4 lines allow expression of exogenous genes in distinct, small subsets of the adult nervous system. The set of DNA fragments, each driving a documented expression pattern, will facilitate the generation of additional constructs for manipulating neuronal function.",

author = "Arnim Jenett and Gerald Rubin and Ngo, \{Teri T.B.\} and David Shepherd and Christine Murphy and Heather Dionne and Barrett Pfeiffer and Amanda Cavallaro and Donald Hall and Jennifer Jeter and Nirmal Iyer and Dona Fetter and Joanna Hausenfluck and Hanchuan Peng and Trautman, \{Eric T.\} and Svirskas, \{Robert R.\} and Meyers, \{Eugene W.\} and Iwinski, \{Zbigniew R.\} and Yoshnori Aso and DePasquale, \{Gina M.\} and Adrianne Enos and Phuson Hulamm and Lam, \{Shing Chun Benny\} and Hsing-Hsi Li and Todd Laverty and Fuhui Long and Lei Qu and Murphy, \{Sean D.\} and Conrad Rokicki and Todd Safford and Kshiti Shaw and Simpson, \{Julie H.\} and Allison Sowell and Susana Tae and Yang Yu and Zugates, \{Christopher T.\}",

year = "2012",

month = oct,

day = "11",

doi = "10.1016/j.celrep.2012.09.011",

language = "English",

volume = "2",

pages = "991--1001",

journal = "Cell Reports",

issn = "2211-1247",

publisher = "Elsevier BV",

number = "4",

}

Jenett, A, Rubin, G, Ngo, TTB, Shepherd, D, Murphy, C, Dionne, H, Pfeiffer, B, Cavallaro, A, Hall, D, Jeter, J, Iyer, N, Fetter, D, Hausenfluck, J, Peng, H, Trautman, ET, Svirskas, RR, Meyers, EW, Iwinski, ZR, Aso, Y, DePasquale, GM, Enos, A, Hulamm, P, Lam, SCB, Li, H-H, Laverty, T, Long, F, Qu, L, Murphy, SD, Rokicki, C, Safford, T, Shaw, K, Simpson, JH, Sowell, A, Tae, S, Yu, Y & Zugates, CT 2012, 'A GAL4-Driver Line Resource for Drosophila Neurobiology', Cell Reports, vol. 2, no. 4, pp. 991-1001. https://doi.org/10.1016/j.celrep.2012.09.011

TY - JOUR

T1 - A GAL4-Driver Line Resource for Drosophila Neurobiology

AU - Jenett, Arnim

AU - Rubin, Gerald

AU - Ngo, Teri T.B.

AU - Shepherd, David

AU - Murphy, Christine

AU - Dionne, Heather

AU - Pfeiffer, Barrett

AU - Cavallaro, Amanda

AU - Hall, Donald

AU - Jeter, Jennifer

AU - Iyer, Nirmal

AU - Fetter, Dona

AU - Hausenfluck, Joanna

AU - Peng, Hanchuan

AU - Trautman, Eric T.

AU - Svirskas, Robert R.

AU - Meyers, Eugene W.

AU - Iwinski, Zbigniew R.

AU - Aso, Yoshnori

AU - DePasquale, Gina M.

AU - Enos, Adrianne

AU - Hulamm, Phuson

AU - Lam, Shing Chun Benny

AU - Li, Hsing-Hsi

AU - Laverty, Todd

AU - Long, Fuhui

AU - Qu, Lei

AU - Murphy, Sean D.

AU - Rokicki, Conrad

AU - Safford, Todd

AU - Shaw, Kshiti

AU - Simpson, Julie H.

AU - Sowell, Allison

AU - Tae, Susana

AU - Yu, Yang

AU - Zugates, Christopher T.

PY - 2012/10/11

Y1 - 2012/10/11

N2 - We established a collection of 7,000 transgenic lines of Drosophila melanogaster. Expression of GAL4 in each line is controlled by a different, defined fragment of genomic DNA that serves as a transcriptional enhancer. We used confocal microscopy of dissected nervous systems to determine the expression patterns driven by each fragment in the adult brain and ventral nerve cord. We present image data on 6,650 lines. Using both manual and machine-assisted annotation, we describe the expression patterns in the most useful lines. We illustrate the utility of these data for identifying novel neuronal cell types, revealing brain asymmetry, and describing the nature and extent of neuronal shape stereotypy. The GAL4 lines allow expression of exogenous genes in distinct, small subsets of the adult nervous system. The set of DNA fragments, each driving a documented expression pattern, will facilitate the generation of additional constructs for manipulating neuronal function.

AB - We established a collection of 7,000 transgenic lines of Drosophila melanogaster. Expression of GAL4 in each line is controlled by a different, defined fragment of genomic DNA that serves as a transcriptional enhancer. We used confocal microscopy of dissected nervous systems to determine the expression patterns driven by each fragment in the adult brain and ventral nerve cord. We present image data on 6,650 lines. Using both manual and machine-assisted annotation, we describe the expression patterns in the most useful lines. We illustrate the utility of these data for identifying novel neuronal cell types, revealing brain asymmetry, and describing the nature and extent of neuronal shape stereotypy. The GAL4 lines allow expression of exogenous genes in distinct, small subsets of the adult nervous system. The set of DNA fragments, each driving a documented expression pattern, will facilitate the generation of additional constructs for manipulating neuronal function.

U2 - 10.1016/j.celrep.2012.09.011

DO - 10.1016/j.celrep.2012.09.011

M3 - Article

SN - 2211-1247

VL - 2

SP - 991

EP - 1001

JO - Cell Reports

JF - Cell Reports

IS - 4

ER -

A GAL4-Driver Line Resource for Drosophila Neurobiology

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