Bioinformatics Resource for Invertebrate Vectors of Human Pathogens
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Gene AGAP001762 Expression Report
Gene links
Anopheles gambiae

Probe Information show details
Expression summary
Experiment P-value Test Experimental factor Summary
Blood meal time series (Marinotti et al., 2006)
Microarray experiment info
Plots and data
4.7e-10
ANOVA
Growth condition
Significant differential expression
↑ blood-fed 96h
↓ blood-fed 3h
Click here for more results from Blood meal time series (Marinotti et al., 2006)
Adult tissues (Baker et al., 2011)
Microarray experiment info
Plots and data
1.6e-05
ANOVA
Organism part and sex
Significant differential expression
↑ male accessory gland:male
↓ whole body:female
Developmental series (Koutsos et al., 2007)
Microarray experiment info
Plots and data
8.8e-05
ANOVA
Developmental stage and age
Significant differential expression
↑ adult:312 hours
↓ larva:144 hours
Click here for more results from Developmental series (Koutsos et al., 2007)
Blood-fed adult female tissues (Marinotti et al., 2006)
Microarray experiment info
Plots and data
0.00010
ANOVA
Organism part
Significant differential expression
↑ midgut
↓ ovaries
Desiccation stress (Wang et al., 2011)
Microarray experiment info
Plots and data
0.00022
ANOVA
Growth condition
Significant differential expression
↑ Exposed to 30% RH 36hr
↓ No desiccation stress
Larval and adult stages (Marinotti et al., 2006)
Microarray experiment info
Plots and data
0.00030
ANOVA
Developmental stage
Significant differential expression
↑ adult
↓ larva
Multi-insecticide resistant VK population (Kwiatkowska et al., 2013)
Microarray experiment info
Plots and data
0.00035
t-test
Strain or line
Significant 1.1-fold up-regulation with respect to
VK v Ngousso
Plasmodium berghei midgut invasion stage comparisons (Vlachou et al., 2005)
Microarray experiment info
Plots and data
0.0010
t-test
Disease state and disease staging
Significant 2.4-fold up-regulation with respect to
invasion-deficient parasite infection:during midgut invasion v before midgut invasion
Click here for more results from Plasmodium berghei midgut invasion stage comparisons (Vlachou et al., 2005)
Blood meal after 15 days (Marinotti et al., 2006)
Microarray experiment info
Plots and data
0.0017
ANOVA
Growth condition
Significant differential expression
↑ Non-blood-fed 18d
↓ blood-fed 15d
Response to thermal stress in 2La and 2L+(a) karyotype mosquitoes (Cassone et al., 2011)
Microarray experiment info
Plots and data
0.0024
ANOVA
Genotype and growth condition and time
Significant differential expression
↑ 2La inverted:heat-shocked:0.25 h
↓ 2La standard:heat-shocked:0.25 h
Two consecutive blood meals (Marinotti et al., 2006)
Microarray experiment info
Plots and data
0.0044
Neighbour t-test
Growth condition
Significant 1.2-fold downward change between:
← Non-blood-fed
→ blood-fed 24h
Click here for more results from Two consecutive blood meals (Marinotti et al., 2006)
Plasmodium berghei midgut invasion time-series (Vlachou et al., 2005)
Microarray experiment info
Plots and data
0.012
t-test
Disease state and disease staging
Significant 1.6-fold down-regulation with respect to
wild-type parasite infection v invasion-deficient parasite infection:during midgut invasion
Click here for more results from Plasmodium berghei midgut invasion time-series (Vlachou et al., 2005)
Female lower reproductive tract post-mating time-series (Gabrieli et al., 2014)
Microarray experiment info
Plots and data
0.013
ANOVA
Developmental stage and growth condition
Significant differential expression
↑ mated adult:24 hours post-mating
↓ mated adult:3 hours post-mating
Click here for more results from Female lower reproductive tract post-mating time-series (Gabrieli et al., 2014)
Larval salivary glands (Neira Oviedo et al., 2009)
Microarray experiment info
Plots and data
0.028
ANOVA
Organism part
Significant differential expression
↑ salivary gland
↓ whole_organism
Mated females (Rogers et al., 2009)
Microarray experiment info
Plots and data
0.029
ANOVA
Growth condition
Significant differential expression
↑ virgin 0h
↓ mated 6h
Click here for more results from Mated females (Rogers et al., 2009)
DDT resistant field isolates (Tene et al, 2013)
Microarray experiment info
Plots and data
0.029
t-test
Genotype and strain or line
Significant 1.1-fold up-regulation with respect to
M form:Gare v Ngousso
Click here for more results from DDT resistant field isolates (Tene et al, 2013)
Adult male mosquito ageing (Cook & Sinkins, 2010)
Microarray experiment info
Plots and data
0.041
Neighbour t-test
Age
Significant 1.1-fold upward change between:
← 20 days
→ 30 days
Click here for more results from Adult male mosquito ageing (Cook & Sinkins, 2010)
Circadian rhythm: heads, dark-dark (Rund et al., 2011)
Microarray experiment info
Plots and data
0.056
ANOVA
Time
Non-significant differential expression
↑ 32.0 h
↓ 0.0 h
Female lower reproductive tract 20E injection (Gabrieli et al., 2014)
Microarray experiment info
Plots and data
0.058
t-test
Compound and organism part
Non-significant 1.2-fold up-regulation with respect to
20-hydroxyecdysone v 10% Ethanol:Spermatheca
Click here for more results from Female lower reproductive tract 20E injection (Gabrieli et al., 2014)
Mated vs virgin spermatheca (Shaw et al., 2014)
Microarray experiment info
Plots and data
0.069
t-test
Developmental stage
Non-significant 1.3-fold up-regulation with respect to
mated adult v virgin adult
Circadian rhythm: bodies, light-dark (Rund et al., 2011)
Microarray experiment info
Plots and data
0.077
ANOVA
Time
Non-significant differential expression
↑ 16.0 h
↓ 52.0 h
Hemolymph, carcass and head (Pinto et al., 2009)
Microarray experiment info
Plots and data
0.11
ANOVA
Organism part
Non-significant differential expression
↑ head
↓ hemolymph
Male vs. female (Marinotti et al., 2006)
Microarray experiment info
Plots and data
0.12
ANOVA
Sex
Non-significant differential expression
↑ male
↓ female
Insecticide resistance in the salivary glands (Isaacs et al., 2018)
Microarray experiment info
Plots and data
0.13
t-test
Genotype and strain or line
Non-significant 1.2-fold down-regulation with respect to
resistant v unexposed:Kihihi
Click here for more results from Insecticide resistance in the salivary glands (Isaacs et al., 2018)
Plasmodium berghei infected vs. uninfected (Zhao et al., 2012)
Microarray experiment info
Plots and data
0.15
Neighbour t-test
Disease state and disease staging
Non-significant 1.2-fold downward change between:
← P. berghei NK65 infected v uninfected:10 days post infection
→ P. berghei NK65 infected v uninfected:17 days post infection
Click here for more results from Plasmodium berghei infected vs. uninfected (Zhao et al., 2012)
Embryonic development (Goltsev et al., 2009)
Microarray experiment info
Plots and data
0.16
Neighbour t-test
Age
Non-significant 1.1-fold upward change between:
← 19h
→ 22h
Click here for more results from Embryonic development (Goltsev et al., 2009)
Adult female mosquito ageing (Cook & Sinkins, 2010)
Microarray experiment info
Plots and data
0.17
ANOVA
Age
Non-significant differential expression
↑ 0 days
↓ 30 days
Click here for more results from Adult female mosquito ageing (Cook & Sinkins, 2010)
Circadian rhythm: heads, light-dark (Rund et al., 2011)
Microarray experiment info
Plots and data
0.17
ANOVA
Time
Non-significant differential expression
↑ 60.0 h
↓ 16.0 h
Male vs. female (Koutsos et al., 2007)
Microarray experiment info
Plots and data
0.17
ANOVA
Sex
Non-significant differential expression
↑ male
↓ female
Embryonic serosa (Goltsev et al., 2009)
Microarray experiment info
Plots and data
0.17
ANOVA
Organism part
Non-significant differential expression
↑ embryonic serosa
↓ embryo
Alimentary canal compartments (Neira Oviedo et al., 2008)
Microarray experiment info
Plots and data
0.21
ANOVA
Organism part
Non-significant differential expression
↑ hindgut
↓ gastric caeca
Chloroquine exposure (Abrantes et al., 2008)
Microarray experiment info
Plots and data
0.24
t-test
Compound and disease state
Non-significant 1.1-fold up-regulation with respect to
chloroquine v none:uninfected
Click here for more results from Chloroquine exposure (Abrantes et al., 2008)
M and S form gravid females (Cassone et al., 2008)
Microarray experiment info
Plots and data
0.26
ANOVA
Genotype
Non-significant differential expression
↑ M form
↓ S form
Click here for more results from M and S form gravid females (Cassone et al., 2008)
M and S form virgin females (Cassone et al., 2008)
Microarray experiment info
Plots and data
0.31
ANOVA
Genotype and strain or line
Non-significant differential expression
↑ M form:M-GA-CAM
↓ M form:Mali-NIH
Click here for more results from M and S form virgin females (Cassone et al., 2008)
M and S form 4th instar larvae (Cassone et al., 2008)
Microarray experiment info
Plots and data
0.37
ANOVA
Genotype and strain or line
Non-significant differential expression
↑ M form:M-GA-CAM
↓ S form:Pimperena
Click here for more results from M and S form 4th instar larvae (Cassone et al., 2008)
Resistant vs susceptible isofemales from Tororo (Wilding et al., 2014)
Microarray experiment info
Plots and data
0.38
t-test
Genotype
Non-significant 1.0-fold up-regulation with respect to
resistant v susceptible
Adult female tissues (Koutsos et al., 2007)
Microarray experiment info
Plots and data
0.63
ANOVA
Organism part
Non-significant differential expression
↑ ovaries
↓ midgut
Circadian rhythm: bodies, dark-dark (Rund et al., 2011)
Microarray experiment info
Plots and data
0.88
ANOVA
Time
Non-significant differential expression
↑ 32.0 h
↓ 20.0 h
Hemocyte response to Plasmodium berghei infection (Pinto et al., 2009)
Microarray experiment info
Plots and data
0.91
Neighbour t-test
Disease state
Non-significant 1.0-fold downward change between:
← invasion-deficient parasite infection
→ wild-type parasite infection