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Table 1 Genes selected for functional analysis

From: Identification and functional analysis of early gene expression induced by circadian light-resetting in Drosophila

Gene Fold change FDR biological function Brain Enrichmenta
DopR −0.52 0.028 activation of adenylate cyclase activity 123
CG11155 −0.37 0.108 ion transport 12
sug −0.82 0 positive and negative regulation of transcription Eye
sif −0.58 0.015 regulation of synapse structure and activity, synaptic transmission 25
Thor −0.36 0.09 negative regulation of translational initiation, antibacterial humoral response NA
Nf1 −0.51 0.022 locomotor rhythm, cAMP-mediated signalling, regulation of Ras protein signal transduction 17
pho −0.39 0.075 negative regulation of gene expression 1.6
CalX −0.38 0.077 Phototransduction Eye
nrv1 −0.34 0.105 potassium ion transport, sodium ion transport Eye
modifier of mdg4 −0.42 0.044 regulation of apoptosis, regulation of chromatin assembly or disassembly 2.6
Hr38 0.8 0 phagocytosis, engulfment 24
Fmr1 0.5 0.018 circadian rhythm, brain development, neurotransmitter secretion, synaptic transmission 4.3
CG7589 0.41 0.07 phagocytosis, engulfment Eye
CG11597 0.6 0.013 protein amino acid dephosophorylation 2.1
CG2051b 0.44 0.055 histone acetylation; chromatin silencing at telomere 0.6
Nipped-Ab −0.46 0.034 Signalling, transcriptional co-activator. A key component of both the SAGA and Tip60 (NuA4) chromatin-modifying complexes. 1.9
trithoraxb −0.41 0.062 histone methylation; histone H3-K4 methylation 4.1
PScb 0.48 0.035 chromatin remodelling 1.8
nejireb −0.42 0.059 histone acetyltransferase activity, H3-K27 specific, H3-K18 specific  
Sirt6b 0.36 0.082 Predicated histone deacetylation activity, determination of adult life span 0.6
Kr-h1b −0.37 0.089 transcription factor activity 2.3
Su(var)3-9b 0.48 0.024 Histone methyltransferase 2.3
  1. aEnrichment of expression compared to whole body, data from FlyAtlas.2 [58]
  2. bGenes associated with chromatin modifications