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Search results 1 to 33 out of 33 for Gpi-ps

0.02s

Type

Details

Score

Pseudogene

MGI:3037698 | Gpi-ps

Type:	pseudogene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_129S1SvImJ_G0033340 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_AJ_G0032054 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_AKRJ_G0033252 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_BALBcJ_G0033321 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_C3HHeJ_G0033035 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Pseudogene

MGI_C57BL6J_3037698 | -

Type:	pseudogene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_C57BL6NJ_G0033833 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_CBAJ_G0033008 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_FVBNJ_G0033109 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_NODShiLtJ_G0033144 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_NZOHlLtJ_G0033850 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_PWKPhJ_G0032070 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein Coding Gene

MGP_WSBEiJ_G0032473 | -

Type:	protein_coding_gene
Organism:	mouse, laboratory

•

Protein

Q80XL7

Organism:	Mus musculus/domesticus
Length:	396
Fragment?:	false

•

Publication

14978215 | J:91398

First Author:	Wadehra M
Year:	2004
Journal:	Mol Biol Cell
Title:	The tetraspan protein EMP2 modulates the surface expression of caveolins and glycosylphosphatidyl inositol-linked proteins.
Volume:	15
Issue:	5
Pages:	2073-83

•

Protein

A0A494BAB7

Organism:	Mus musculus/domesticus
Length:	86
Fragment?:	true

•

Publication

25557665 | -

First Author:	Manzano-Lopez J
Year:	2015
Journal:	Curr Biol
Title:	COPII coat composition is actively regulated by luminal cargo maturation.
Volume:	25
Issue:	2
Pages:	152-62

•

Publication

17989219 | -

First Author:	Haass FA
Year:	2007
Journal:	Proc Natl Acad Sci U S A
Title:	Identification of yeast proteins necessary for cell-surface function of a potassium channel.
Volume:	104
Issue:	46
Pages:	18079-84

•

Publication

25165136 | -

First Author:	Vazquez HM
Year:	2014
Journal:	Mol Biol Cell
Title:	Cdc1 removes the ethanolamine phosphate of the first mannose of GPI anchors and thereby facilitates the integration of GPI proteins into the yeast cell wall.
Volume:	25
Issue:	21
Pages:	3375-88

•

Publication

19837036 | -

First Author:	Fujita M
Year:	2009
Journal:	Cell
Title:	GPI glycan remodeling by PGAP5 regulates transport of GPI-anchored proteins from the ER to the Golgi.
Volume:	139
Issue:	2
Pages:	352-65

•

Protein Domain

IPR033308 | PGAP5/Cdc1/Ted1

Type:

Family

Description:

This entry includes mammalian PGAP5 protein (also known as MPPE1) and budding yeast Ted1 and Cdc1 proteins. PGAP5 is involved in transport of GPI-anchored proteins from the ER to the Golgi []. Ted1 is a GPI-glycan remodelase that acts together with Emp24 and Erv25 in cargo exit from the endoplasmic reticulum [, ]. Ted1 functions as the yeast orthologue of mammalian PGAP5 by removing a specific EtNP on GPI-glycan. By contrast, the other yeast PGAP5 homologue, Cdc1, seems not to be involved in GPI-AP trafficking []. Instead, removes specifically the side-chain EtNP placed at the first mannose of the GPI-glycan, which is not important for trafficking but facilitates the integration of GPI-APs into the yeast cell wall [].

•

Publication

- | J:23000

First Author:	MGD Nomenclature Committee
Year:	1995

Title:	Nomenclature Committee Use

•

Publication

22227195 | J:181221

First Author:	Murakami H
Year:	2012
Journal:	Biochem Biophys Res Commun
Title:	Enhanced response of T lymphocytes from Pgap3 knockout mouse: Insight into roles of fatty acid remodeling of GPI anchored proteins.
Volume:	417
Issue:	4
Pages:	1235-41

•

Publication

35151686 | J:333707

First Author:	Hirata T
Year:	2022
Journal:	J Biol Chem
Title:	Loss of the N-acetylgalactosamine side chain of the GPI-anchor impairs bone formation and brain functions and accelerates the prion disease pathology.
Volume:	298
Issue:	3
Pages:	101720

•

Publication

33392778 | J:305399

First Author:	Chen X
Year:	2021
Journal:	Hum Genet
Title:	Loss of PIGK function causes severe infantile encephalopathy and extensive neuronal apoptosis.
Volume:	140
Issue:	5
Pages:	791-803

•

Publication

23864655 | J:203443

First Author:	Wang Y
Year:	2013
Journal:	J Biol Chem
Title:	Significance of glycosylphosphatidylinositol-anchored protein enrichment in lipid rafts for the control of autoimmunity.
Volume:	288
Issue:	35
Pages:	25490-9

•

Publication

17711852 | J:126766

First Author:	Ueda Y
Year:	2007
Journal:	J Biol Chem
Title:	PGAP1 knock-out mice show otocephaly and male infertility.
Volume:	282
Issue:	42
Pages:	30373-80

•

Publication

36963497 | J:335200

First Author:	Fu Y
Year:	2023
Journal:	J Biol Chem
Title:	Identification of GPI-anchored protein LYPD1 as an essential factor for odontoblast differentiation in tooth development.
Volume:	299
Issue:	5
Pages:	104638

•

Publication

- | J:91388

First Author:	Mouse Genome Informatics Scientific Curators
Year:	2005

Title:	Obtaining and Loading Genome Assembly Coordinates from Ensembl Annotations

•

Publication

- | J:90438

First Author:	Mouse Genome Informatics Scientific Curators
Year:	2005

Title:	Obtaining and loading genome assembly coordinates from NCBI annotations

•

Publication

- | J:63103

First Author:	Mouse Genome Database and National Center for Biotechnology Information
Year:	2000
Journal:	Database Release
Title:	Entrez Gene Load

•

Publication

- | J:84900

First Author:	Mouse Genome Informatics Scientific Curators
Year:	2003
Journal:	Database Download
Title:	Integrating Computational Gene Models into the Mouse Genome Informatics (MGI) Database

•

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