PPGR - Gene Detail

Gene ID	MD09G1137300.v1.1 View in Genome Browser
Position	Chr09:10631461-10638000 (-) 6539bp
Gene Type	gene
Gene Description (Protein Product)	Heat shock 70 kDa protein
Organism	Malus domestica
Also AS	MD09G1137300AT4G16660

upstream:

Database	EntryID	E-Value	Start	end	InterPro ID	Description

Protein-protein interaction (PPI)	MD14G1134100.v1.1 Belongs to the heat shock protein 70 family MD15G1411400.v1.1 disulfide-isomerase MD15G1346200.v1.1 disulfide-isomerase-like
Regulatory gene	MD00G1032600.v1.1 SANT SWI3; ADA2; N-CoR and TFIIIB'' DNA-binding domains MD00G1058800.v1.1 Myb-related protein MD00G1065700.v1.1 transcription factor

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Orthologous ID	Species Number	All hits in PereRegDB	Hits of this species	Orthologous Detail

DataSet	Number of Samples expressed(TPM>1)	Mean	Min	Max	Standard deviation(SD)	Coeffcient variation(CV)

Select Expression

GO Term	Description	GO Category
GO:0005575	cellular_component	CC
GO:0005622	intracellular anatomical structure	CC
GO:0005623	obsolete cell	CC
GO:0005737	cytoplasm	CC
GO:0005773	vacuole	CC
GO:0005774	vacuolar membrane	CC
GO:0005783	endoplasmic reticulum	CC
GO:0005794	Golgi apparatus	CC
GO:0009507	chloroplast	CC
GO:0009536	plastid	CC
GO:0012505	endomembrane system	CC
GO:0016020	membrane	CC
GO:0031090	organelle membrane	CC
GO:0043226	organelle	CC
GO:0043227	membrane-bounded organelle	CC
GO:0043229	intracellular organelle	CC
GO:0043231	intracellular membrane-bounded organelle	CC
GO:0044422	obsolete organelle part	CC
GO:0044424	obsolete intracellular part	CC
GO:0044437	obsolete vacuolar part	CC
GO:0044444	obsolete cytoplasmic part	CC
GO:0044446	obsolete intracellular organelle part	CC
GO:0044464	obsolete cell part	CC
GO:0098588	bounding membrane of organelle	CC
GO:0098805	membrane	CC

KEGG Term	Name	Description
map04141	Protein processing in endoplasmic reticulum	The endoplasmic reticulum (ER) is a subcellular organelle where proteins are folded with the help of lumenal chaperones. Newly synthesized peptides enter the ER via the sec61 pore and are glycosylated. Correctly folded proteins are packaged into transport vesicles that shuttle them to the Golgi complex. Misfolded proteins are retained within the ER lumen in complex with molecular chaperones. Proteins that are terminally misfolded bind to BiP and are directed toward degradation through the proteasome in a process called ER-associated degradation (ERAD). Accumulation of misfolded proteins in the ER causes ER stress and activates a signaling pathway called the unfolded protein response (UPR). In certain severe situations, however, the protective mechanisms activated by the UPR are not sufficient to restore normal ER function and cells die by apoptosis.