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Search results 101 to 133 out of 133 for Vps13d

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0.018s

Type

Details

Score

Publication

30018089 | -

First Author:	Bean BDM
Year:	2018
Journal:	J Cell Biol
Title:	Competitive organelle-specific adaptors recruit Vps13 to membrane contact sites.
Volume:	217
Issue:	10
Pages:	3593-3607

•

Publication

30741634 | -

First Author:	Yeshaw WM
Year:	2019
Journal:	Elife
Title:	Human VPS13A is associated with multiple organelles and influences mitochondrial morphology and lipid droplet motility.
Volume:	8

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Publication

30709847 | -

First Author:	Muñoz-Braceras S
Year:	2019
Journal:	Dis Model Mech
Title:	VPS13A is closely associated with mitochondria and is required for efficient lysosomal degradation.
Volume:	12
Issue:	2

•

Publication

34216812 | -

First Author:	Leonzino M
Year:	2021
Journal:	Biochim Biophys Acta Mol Cell Biol Lipids
Title:	Insights into VPS13 properties and function reveal a new mechanism of eukaryotic lipid transport.
Volume:	1866
Issue:	10
Pages:	159003

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Protein

B1ART1

Organism:	Mus musculus/domesticus
Length:	4359
Fragment?:	false

•

Protein

B1ART2

Organism:	Mus musculus/domesticus
Length:	4390
Fragment?:	false

•

Protein

A1ILH1

Organism:	Mus musculus/domesticus
Length:	172
Fragment?:	true

•

Protein

A1ILG9

Organism:	Mus musculus/domesticus
Length:	215
Fragment?:	true

•

Protein

Q3TN78

Organism:	Mus musculus/domesticus
Length:	192
Fragment?:	false

•

Protein

A1ILH0

Organism:	Mus musculus/domesticus
Length:	193
Fragment?:	true

•

Protein

F6XI52

Organism:	Mus musculus/domesticus
Length:	1078
Fragment?:	true

•

Protein

A1ILH6

Organism:	Mus musculus/domesticus
Length:	116
Fragment?:	true

•

Protein

A0A286YCT3

Organism:	Mus musculus/domesticus
Length:	2339
Fragment?:	false

•

Protein

Q8C9M0

Organism:	Mus musculus/domesticus
Length:	115
Fragment?:	true

•

Protein

A0A2I3BPN3

Organism:	Mus musculus/domesticus
Length:	46
Fragment?:	true

•

Publication

23444357 | -

First Author:	Koizumi K
Year:	2013
Journal:	Development
Title:	Identification of SHRUBBY, a SHORT-ROOT and SCARECROW interacting protein that controls root growth and radial patterning.
Volume:	140
Issue:	6
Pages:	1292-300

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Publication

28122955 | -

First Author:	De M
Year:	2017
Journal:	J Cell Biol
Title:	The Vps13p-Cdc31p complex is directly required for TGN late endosome transport and TGN homotypic fusion.
Volume:	216
Issue:	2
Pages:	425-439

•

Protein Domain

IPR009543 | VPS13_VAB

Type:

Domain

Description:

This entry represents the VPS13 adaptor binding (VAB) domain, previously known as SHR-BD, found in VPS13 []. These proteins interact with membrane-specific adaptor proteins such as Ypt35, Spo71 and the mitochondrial membrane protein Mcp1, to be recruited to different membranes. This domain interacts with Ypt35 which recruits VPS13 to endosomal and vacuolar membranes, and with Mcp1 to target VPS13 at mitochondria []. In plants, this domain is found to be the region which interacts with SHR or the SHORT-ROOT transcription factor, a regulator of root-growth and asymmetric cell division that separates ground tissue into endodermis and cortex. The plant protein containing the SHR-BD is named SHRUBBY or SHBY () [].This domain likely adopts an elongated structure consisting of β-sheets. It has been described as a β-propeller/WD40-like structure [, ], however, based on structural models, it does not seem to have that 3D arrangement.VPS13 proteins have been implicated in processes including vesicle fusion, autophagy, and actin regulation. They bind phospholipids and act as channels that mediate the transfer of lipids between membranes at organelle contact sites [, , ]. It has been proposed that members of this entry have the capacity to bind and likely transfer tens of glycerolipids at once. Yeast VPS13 acts at multiple cellular sites, namely the interface between mitochondria and the vacuole, on endosomes, on the nuclear-vacuole junction and the vacuole, depending on the carbon source and metabolic state. Most evidence showed that mammalian VPS13A, VPS13C and VPS13D localize at contacts between the ER and other organelles, i.e. VPS13A and VPS13D bridge the ER to mitochondria, VPS13C bridges the ER to late endosomes and lysosomes and VPS13B may localize to endosome-endosome contacts [, , ]. Mutations in human VPS13 proteins (VPS13A-D) cause different diseases such as Chorea-acanthocytosis, Cohen syndrome, Parkinson's disease, and spastic ataxia, respectively which suggests they have different functions [, ].

•

Protein

Q80TY5

Organism:	Mus musculus/domesticus
Length:	3993
Fragment?:	false

•

Protein

A0A1L1SUY8

Organism:	Mus musculus/domesticus
Length:	771
Fragment?:	false

•

Protein

Q8BX70

Organism:	Mus musculus/domesticus
Length:	3748
Fragment?:	false

•

Protein

Q5H8C4

Organism:	Mus musculus/domesticus
Length:	3166
Fragment?:	false

•

Protein

A1ILG8

Organism:	Mus musculus/domesticus
Length:	3748
Fragment?:	false

•

Publication

34830155 | -

First Author:	Kolakowski D
Year:	2021
Journal:	Int J Mol Sci
Title:	The GTPase Arf1 Is a Determinant of Yeast Vps13 Localization to the Golgi Apparatus.
Volume:	22
Issue:	22

•

Publication

30093493 | -

First Author:	Kumar N
Year:	2018
Journal:	J Cell Biol
Title:	VPS13A and VPS13C are lipid transport proteins differentially localized at ER contact sites.
Volume:	217
Issue:	10
Pages:	3625-3639

•

Protein

V9GX23

Organism:	Mus musculus/domesticus
Length:	3211
Fragment?:	true

•

Protein

Q6A066

Organism:	Mus musculus/domesticus
Length:	1918
Fragment?:	true

•

Protein

Q6P4T0

Organism:	Mus musculus/domesticus
Length:	1914
Fragment?:	false

•

Protein

Q80XK6

Organism:	Mus musculus/domesticus
Length:	2075
Fragment?:	false

•

Protein

Q8CDS8

Organism:	Mus musculus/domesticus
Length:	921
Fragment?:	false

•

Protein

A0A286YCC3

Organism:	Mus musculus/domesticus
Length:	857
Fragment?:	true

•

Protein

Q6P6M9

Organism:	Mus musculus/domesticus
Length:	1186
Fragment?:	true

•

Protein

A0A1L1SS63

Organism:	Mus musculus/domesticus
Length:	757
Fragment?:	true

•

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