Gene Dvir\Jhe

Help Close All Open All

General Information

Symbol

Dvir\Jhe

Species

D. virilis

Name

Juvenile hormone esterase

Annotation symbol

Feature type

gene

FlyBase ID

FBgn0020458

Gene Model Status

Unannotated

Stock availability

None publicly available

Also Known As

Genomic Location

Chromosome (arm)

Recombination map

Cytogenetic map

Sequence location

Summary Information

Automatically generated summary

See sections below for more information

The gene Juvenile hormone esterase is referred to in FlyBase by the symbol Dvir\Jhe (FBgn0020458). It is a gene from Drosophila virilis. Its molecular function is unknown. The biological processes in which it is involved are not known. No alleles are reported. It has no annotated transcripts. Gene has not been localized to the genome sequence.

Recent Updates

Description

What does this section display?

This section contains items that were added to this record for each release. It currently only tracks new links between this FlyBase report and other FlyBase data classes (e.g. genes, references, stocks) or controlled vocabulary terms (e.g. GO, anatomy terms).

What does this section not display?

This section does not currently display links that were removed or gene model changes.

Update Feed

Click the icon below to subscribe to this FlyBase record and receive updates automatically through your feed reader.

FB2013_03

FB2013_02

All updates

Click here to see a list of all updates to this record from FB2010_08 and on.

Detailed Mapping Data

FlyBase Computed Cytological Location

Cytogenetic map

Evidence for location

Experimentally Determined Cytological Location

Cytogenetic map

Notes

References

Experimentally Determined Recombination Data

Location

Left of (cM)

Right of (cM)

Notes

Gene Model & Products

Comments on Gene Model

Transcript Data

Annotated Transcripts

Name

FlyBase ID

RefSeq ID

Length (nt)

Associated CDS (aa)

Additional Transcript Data & Comments

Reported size (kB)

Comments

External Data

Crossreferences

Polypeptide Data

Annotated Polypeptides

Name

FlyBase ID

Predicted MW (kDa)

Length (aa)

Theoretical pI

RefSeq ID

GenBank protein

Additional Polypeptide Data & Comments

Reported size (kDa)

Comments

External Data

Linkouts

Crossreferences

Sequences Consistent with the Gene Model

DDBJ /
EMBL /
GenBank

DNA sequence

Protein sequence

Name

UniProtKB/Swiss-Prot

UniProtKB/TrEMBL

Mapped Features

Type

Symbol & Location

Additional Notes

References

External Data

Linkouts

Crossreferences

Expression Data

Transcript Expression

Additional Descriptive Data

Marker for

Subcellular Localization

CV Term

Polypeptide Expression

Additional Descriptive Data

Marker for

Subcellular Localization (GO Cellular Component)

CV term

Evidence

References

Expression Deduced from Reporters

High-Throughput Expression Data

Associated Tools

Reference

See Gelbart and Emmert, 2010.10.13 for analysis details and data files for all genes.

FlyAtlas Anatomy Microarray

modENCODE Anatomy RNA-Seq

modENCODE Development RNA-Seq

modENCODE Cell Lines RNA-Seq

modENCODE Treatments RNA-Seq

Expression Clusters

External Data & Images

Linkouts

Alleles & Phenotypes

Summary of Allele Phenotypes

Phenotype manifest in

Allele

Classical Alleles ( 0 )

For All Classical Alleles Show

Allele of Dvir\Jhe	Class	Mutagen	Stocks	Known lesion

Alleles Carried on Transgenic Constructs ( 0 )

For All Alleles Carried on Transgenic Constructs Show

Allele of Dvir\Jhe	Class	Mutagen	Stocks	Known lesion

Aneuploid Aberrations

Transgenic Constructs & Insertions

Transgenic Constructs

Type of construct

Name

Expression data

Insertions

Type of insertions

Name

Expression data

Gene Ontology: Function, Process & Cellular Component ( 0 unique terms )

Terms Based on Experimental Evidence ( 0 terms )

Terms Based on Predictions or Assertions ( 0 terms )

Sequence Ontology: Class of Gene

gene

Interactions & Pathways

Summary of Physical Interactions

Summary of Genetic Interactions

Interacts with

Please look at the allele data for full details of the genetic interactions

Dvir\Jhe allele

Gene

References

External Data

Linkouts

Orthologs

OrthoDB Orthologs (0) - based on analysis using Dmel annotation version 5.41

OrthoDB Ortholog Groups

OrthoDB orthology group searches

(Waterhouse et al., 2011, Nucleic Acids Res. 39(Database issue): D283--D288)

Drosophila inclusive ortholog search

No orthologs identified

Dipteran inclusive ortholog search

No orthologs identified

Insect inclusive ortholog search

No orthologs identified

Arthropod inclusive ortholog search

No orthologs identified

Metazoa inclusive ortholog search

No orthologs identified

Ortholog(s) in Drosophila melanogaster (None identified)

No D. melanogaster orthologies identified

Human Orthologs (0)

Gene

OMIM

HGNC

AAA Orthologs (0) based on analysis using Dmel annotation version 4.3

No orthologs identified

Stocks & Reagents

Stocks Listed in FlyBase ( 0 )

Genomic Clones ( 0 )

cDNA Clones ( 0 )

cDNA Clones, Fully Sequenced

BDGP DGC clones

Other clones

cDNA Clones, End Sequenced (ESTs)

BDGP DGC clones

Other clones

RNAi & Array Information

Linkouts

Antibody Information

Other Information

Discoverer

Etymology

Identification

Relationship to Other Genes

Source for database identity of

Source for database merge of

Additional comments

Other Comments

Heat stress results in delay of oviposition and a decrease in juvenile hormone hydrolysis and fertility, which lasted several days after heat treatment.

(Gruntenko et al., 1996)

The course of changes in the activities of enzymes degrading juvenile hormone (JH) during development is studied and the possible role of the proteins in the regulation of JH titre in critical developmental periods and in reproduction are investigated.

(Khlebodarova et al., 1996)

Flies respond to stressing effects by a decrease in the level of Juvenile hormone (JH) hydrolysis, delay in oviposition and a decrease in fertility for a few days. The decrease in level of JH hydrolysis may be responsible for the response of the reproductive system to stress.

(Rauschenbach et al., 1996)

Two forms of Dvir\Jhe are identified by ion exchange chromatography, one sensitive and one insensitive to DFP (diisopropylphosphofluridate). Females respond to heat stress by a decrease in activity of Dvir\Jhe. This decrease is effected through a decrease in protein. Dvir\Jhe metabolism in males does not change under heat stress.

(Rauschenbach et al., 1995)

The activity of Dvir\Jhe in adult D.virilis females decreases in response to heat stress.

(Raushenbakh et al., 1995)

Inhibition of Dvir\Jhe activity using paraoxon inhibits D.virilis metamorphosis.

(Rauschenbach et al., 1991)

External Crossreferences & Linkouts

Sequence Crossreferences

Other Crossreferences

Linkouts

Synonyms & Secondary IDs ( 6 )

Reported As

Symbol Synonym

Dvir\Jhe

(Gruntenko et al., 1996, Rauschenbach et al., 1991)

Jhe

(Crone et al., 2007)

Name Synonym

JE esterase

(Gruntenko et al., 2005)

JH esterase

(Rauschenbach et al., 1991, Raushenbakh et al., 1995)

Juvenile hormone esterase

(Gruntenko et al., 1996)

Secondary FlyBase IDs

References ( 13 )

Research paper

Crone et al., 2007, Insect Biochem. Mol. Biol. 37(6): 540--549: Only one esterase of Drosophila melanogaster is likely to degrade juvenile hormone in vivo. [FBrf0200538]
Gruntenko et al., 2005, J. Insect Physiol. 51(9): 959--968: Effects of dopamine on juvenile hormone metabolism and fitness in Drosophila virilis. [FBrf0190995]
Khlebadarova et al., 1998, Genetika, Moscow 34(5): 625--628: [Genes, controlling the response of the juvenile hormone degradation system to stress in the Drosophila virilis imago, linked to chromosome 6.] [FBrf0104759]
Grenback et al., 1997, Genetika, Moscow 33(7): 920--923: [Genetic control of the activity of DFP-sensitive juvenile hormone esterase in D. virilis.] [FBrf0099238]
Grenback et al., 1997, Russ. J. Genet. 33(7): 776--779: Genetic control of the activity of DFP-sensitive juvenile hormone esterase in D. virilis. [FBrf0105084]
Gruntenko et al., 1996, Genetika, Moscow 32(9): 1191--1198: [The role of juvenile hormone metabolism in adaptation of the Drosophila population to stressful environments.] [FBrf0091384]
Khlebodarova et al., 1996, Insect Biochem. Mol. Biol. 26(8-9): 829--835: A comparative analysis of juvenile hormone metabolyzing enzymes in two species of Drosophila during development. [FBrf0091392]
Khlebodarova et al., 1996, Ontogenez 27(2): 126--130: [Enzymes of the juvenile hormone metabolism in ontogenesis of Drosophila virilis.] [FBrf0088288]
Rauschenbach et al., 1996, J. Insect Physiol. 42(8): 735--742: The role of degradation system of the juvenile hormone in the reproduction of Drosophila under stress. [FBrf0090753]
Rauschenbach et al., 1995, J. Insect Physiol. 41(2): 179--189: Metabolism of the juvenile hormone in Drosophila adults under normal conditions and heat stress: Genetical and biochemical aspects. [FBrf0080343]
Raushenbakh et al., 1995, Genetika, Moscow 31(2): 193--200: [Genetic analysis of differences in metabolism of juvenile hormone in lines of Drosophila virilis that are resistant and sensitive to heat shock.] [FBrf0080344]
Rauschenbach et al., 1991, Ontogenez 22(3): 274--281: The role of JH-esterase in Diptera metamorphosis. [FBrf0074255]
Rauschenbach et al., 1991, J. Insect Physiol. 37(7): 541--548: Role of juvenile hormone esterase in Diptera Drosophila virilis metamorphosis. [FBrf0054477]