E-MTAB-507 - Transcription profiling by array of honey bee brains in response to dietary manipulations

Status
Released on 1 July 2011, last updated on 3 May 2014
Organism
Apis mellifera
Samples (49)
Array (1)
Protocols (6)
Description
Differences in honey bee brain gene expression in response to dietary manipulations
Experiment types
transcription profiling by array, dye swap, innate behavior, loop
Contacts
Citations
New meta-analysis tools reveal common transcriptional regulatory basis for multiple determinants of behavior. Seth A. Ament; Charles A. Blatti; Cedric Alaux; Marsha M. Wheeler; Amy L. Toth; Yves Le Conte; Greg J. Hunt; Ernesto Guzmán-Novoa; Gloria DeGrandi-Hoffman; Jose Luis Uribe-Rubio; Gro V. Amdam; Robert E. Page; Sandra L. Rodriguez-Zas; Gene E. Robinson; Saurabh Sinha. Proc Natl Acad Sci U S A 109(26):E1801 (2012), Europe PMC 22691501
Brain Transcriptional Regulatory Network Quantitatively Predicts Behavior-Specific Gene Expression. Sriram Chandrasekaran, Seth A. Ament, James A. Eddy, Sandra Rodriguez-Zas, Bruce R. Schatz, Nathan D. Price, and Gene E. Robinson.
The transcription factor ultraspiracle influences honey bee social behavior and behavior-related gene expression. Ament SA, Wang Y, Chen CC, Blatti CA, Hong F, Liang ZS, Negre N, White KP, Rodriguez-Zas SL, Mizzen CA, Sinha S, Zhong S, Robinson GE. :e1002596 (2012), Europe PMC 22479195
Mechanisms of Stable Lipid Loss in a Social Insect. Seth A. Ament, Queenie W. Chan, Marsha M. Wheeler, Scott E. Nixon, S. Peir Johnson, Sandra Rodriguez-Zas, Leonard J. Foster, and Gene E. Robinson.
MIAME
PlatformsProtocolsVariablesProcessedRaw
Files
Investigation descriptionE-MTAB-507.idf.txt
Sample and data relationshipE-MTAB-507.sdrf.txt
Raw data (1)E-MTAB-507.raw.1.zip
Array designA-MEXP-755.adf.txt
R ExpressionSetE-MTAB-507.eSet.r
Links