Bcl-2-like protein 13 is a mammalian Atg32 homologue that mediates mitophagy and mitochondrial fragmentation. - Wikidata - awgldk - TriplyDB

Bcl-2-like protein 13 is a mammalian Atg32 homologue that mediates mitophagy and mitochondrial fragmentation.

Bcl-2-like protein 13 is a mammalian Atg32 homologue that mediates mitophagy and mitochondrial fragmentation.

http://www.wikidata.org/entity/Q41495391

about

Mitophagy programs: mechanisms and physiological implications of mitochondrial targeting by autophagy The critical roles of mitophagy in cerebral ischemia Staying young at heart: autophagy and adaptation to cardiac aging Neuronal Mitophagy in Neurodegenerative Diseases The Human Bcl-2 Family Member Bcl-rambo Localizes to Mitochondria and Induces Apoptosis and Morphological Aberrations in Drosophila.The Degradation Pathway of the Mitophagy Receptor Atg32 Is Re-Routed by a Posttranslational Modification Lost in translation: miRNAs and mRNAs in ischemic preconditioning and ischemia/reperfusion injury.Pro- and Antioxidant Functions of the Peroxisome-Mitochondria Connection and Its Impact on Aging and Disease Phospho-ubiquitin: upending the PINK-Parkin-ubiquitin cascade Dedicated SNAREs and specialized TRIM cargo receptors mediate secretory autophagy.Molecular definitions of autophagy and related processes.Mitochondria and Cancer.Mitochondrial autophagy in cardiomyopathy.Connecting mitochondrial dynamics and life-or-death events via Bcl-2 family proteins.Mechanistic insights into selective autophagy pathways: lessons from yeast.Mitophagy in Yeast: A Screen of Mitophagy-Deficient Mutants.Mitochondrial biogenesis and clearance: a balancing act.Autophagy in leukocytes and other cells: mechanisms, subsystem organization, selectivity, and links to innate immunity.Parkin and mitophagy in cancer.Lysosomal degradation of intracellular nucleic acids-multiple autophagic pathways.Mitophagy in neurodegeneration and aging.Mitochondrial homeostasis in adipose tissue remodeling.Expanding perspectives on the significance of mitophagy in cancer.Mitochondrial quality control: Cell-type-dependent responses to pathological mutant mitochondrial DNA Structural basis for the phosphorylation of FUNDC1 LIR as a molecular switch of mitophagy.A dividing matter: Drp1/Dnm1-independent mitophagy.Mitophagy as a Protective Mechanism against Myocardial Stress.The Mitochondrial Basis of Aging and Age-Related Disorders.From Erythroblasts to Mature Red Blood Cells: Organelle Clearance in Mammals.Evolution of tools and methods for monitoring autophagic flux in mammalian cells.Regulation of selective autophagy: the p62/SQSTM1 paradigm.In mammalian skeletal muscle, phosphorylation of TOMM22 by protein kinase CSNK2/CK2 controls mitophagy.Mammalian mitophagy - from in vitro molecules to in vivo models.FKBP8 protects the heart from hemodynamic stress by preventing the accumulation of misfolded proteins and endoplasmic reticulum-associated apoptosis in mice.Mechanisms and Physiological Roles of Mitophagy in Yeast.Mitochondrial fission facilitates the selective mitophagy of protein aggregates.Investigation of Yeast Mitophagy with Fluorescence Microscopy and Western Blotting.FKBP8 recruits LC3A to mediate Parkin-independent mitophagy.Intra- and Intercellular Quality Control Mechanisms of Mitochondria.A Molecular Approach to Mitophagy and Mitochondrial Dynamics.

P2860

Q26776469-931998FB-AD9F-4B26-BF55-2CF827CC9B9D Q28066745-DAA0FB7F-A00D-49D6-AC0D-A467A7BE85AA Q28393951-9528DDC3-2873-4306-BAE9-31A89DD30811 Q29248361-310B601B-9D23-4954-820E-2802EA943050 Q36062514-850F6113-DFC8-4F6C-8AB7-3F7CF6863EA3 Q36228346-96E901FD-3D1C-43A0-8BC8-50554729EF07 Q38638036-3A7EE404-C376-4512-AA57-4D4F51314764 Q38641954-2B419B85-9BA8-4F1F-AD1B-10E639AB17BD Q38721233-96302E95-2B90-4400-9C42-9D92CF978D53 Q38727042-EC70D139-7DD5-4DA5-ADD0-50971BFE82E6 Q38735356-42AE9115-B255-4C47-8029-B62EB9A47DE5 Q38760551-C341C463-981D-4BE6-A757-E01E8860D130 Q38785039-8F6B1128-99E9-47AC-A926-45341D17D156 Q38810383-017E98AC-E780-4625-8E2F-5311F497C0EF Q38887102-DEEEC02F-FF51-4FE9-A1A3-698E5A285666 Q38889645-DC2064BD-5525-4A34-B5A2-CBEB54972B29 Q38909954-62413676-304B-4A50-8709-B6D331E0CDC4 Q38919277-C7711539-2DF9-48C9-B97B-EE7EFD047731 Q38946190-B4134B42-C1C7-4E0D-A2E1-98A19AB4483F Q39063358-685E0776-69B7-4175-BFA9-2529D302BBD9 Q39149860-6757A208-3E83-4032-9ACC-DA8B71541333 Q39155209-60098A3F-F7C2-4284-8B74-9D3A6CAA75DE Q39267828-35480445-2F1E-4641-BF3B-C3AA7659DDC5 Q40501815-E0965A85-F1B9-42B9-BB22-12D763DD1838 Q41704192-F51DFDD4-2F5E-45BB-9AA1-B198A0AB63E0 Q42356301-99432FD6-D469-4AA5-AFF0-AE0AF73D5459 Q46165815-9F9E82B0-3749-456E-A3BF-C543078B7F5B Q46236707-D476DC27-FED4-4FA6-8F12-96E0ADD43130 Q47221900-5FF2A10C-1010-4762-9552-758CAFB4DCAF Q47228642-159EB5FB-F052-419C-A8C4-E9DE0C90DE3F Q47301166-5642A3EA-79F3-4E3A-9D52-58B280BEC4D5 Q47374575-CC939FD9-8483-45A3-9FF3-628F0B40471C Q47389227-62866725-EAAA-44CA-B613-52FDC383B5B9 Q47411695-4798DD5A-7797-4113-AB37-344273E00095 Q47647351-9FCB8CD5-FBCD-4D77-B310-404113178827 Q47820990-77D045D4-34F8-4D02-A323-8BC5CB360337 Q47940117-EBB932D4-B3F1-438D-A270-BF1EF4BC7647 Q48315761-C4B929CD-EA8C-446F-B7DD-74FE14AA2391 Q48348654-7C2638EE-ECC9-4733-A006-80BA3AC14B62 Q49536755-11A17DAE-CE2B-449C-9E71-05204985FCD3

P2860

Bcl-2-like protein 13 is a mammalian Atg32 homologue that mediates mitophagy and mitochondrial fragmentation.

http://www.wikidata.org/entity/Q41495391

description

2015 nî lūn-bûn

@nan

2015年の論文

@ja

2015年論文

@yue

2015年論文

@zh-hant

2015年論文

@zh-hk

2015年論文

@zh-mo

2015年論文

@zh-tw

2015年论文

@wuu

2015年论文

@zh

2015年论文

@zh-cn

name

Bcl-2-like protein 13 is a mam ...... d mitochondrial fragmentation.

@en

type

label

Bcl-2-like protein 13 is a mam ...... d mitochondrial fragmentation.

@en

prefLabel

Bcl-2-like protein 13 is a mam ...... d mitochondrial fragmentation.

@en

P1433

Q41495391-D8854E26-7010-4405-9992-C5D0971CFB5D

P1476

Q41495391-D158C00D-F7BA-4191-9666-4E22CF0215D3

P2093

Q41495391-05DB858E-3120-40E2-AB94-B7BBB32EC93F

Q41495391-05F9BF24-0E47-4385-A6AF-5AEB1A1CED06

Q41495391-06E7082A-922D-4A20-92AF-9FD263ED5AEE

Q41495391-07C15C06-7A78-4F11-8A22-2AE135134B4E

Q41495391-11851165-D5A0-4162-8EDF-3A23BB50787B

Q41495391-1CE3227B-0A5F-48C1-B7CE-528DA9C9A1D2

Q41495391-606D7D36-83CB-4CC1-89CA-DEA135E85694

Q41495391-9BB4B046-D2FD-4B28-8D08-E45EDB23295C

Q41495391-A560F7C5-DACD-4DAB-89E6-253BB96470BE

Q41495391-BA80C0C1-17A1-4FA1-A6E8-6668F8CA857A

P2860

Q41495391-050EF13B-812F-4A91-9B56-A37049CC0A15

Q41495391-059B69A1-D0BB-4C03-8DB6-EF5851D7FBC3

Q41495391-0A759DD8-63E0-454C-B97C-D6F2AF06D903

Q41495391-0E74A570-6947-443E-8917-EC0074C1BBEF

Q41495391-142AE91F-A9F9-4EEB-9BE3-23BCC1A00D98

Q41495391-19314605-7EB7-4529-A9C2-6B0EEE03B3D4

Q41495391-23B3BF92-FC14-4A6F-9C26-8FF60F0D29FF

Q41495391-2542DE24-7D2A-4E5A-8D00-BDA213BC5C51

Q41495391-38485FB4-C5CB-463A-B9D3-E6B9E914B3ED

Q41495391-3E5EF093-6D21-4AAC-B113-4F51B47C258D

P2888

Q41495391-17B88571-191E-4A1B-8A83-D91CB3C83385

P304

Q41495391-87A32350-7D0A-41E1-979C-ED038740195C

P31

Q41495391-F1ACB082-7CF4-427A-9752-1FF608DE1832

P356

Q41495391-58042423-E6D7-4202-8145-45B8A90B626F

P407

Q41495391-5CF12FEF-D24A-4964-A6C8-5586DD3E3E7A

P478

Q41495391-A12FBE9D-DE87-479D-8F66-16286F7C303D

P50

Q41495391-889D7772-F931-401B-A308-416A1F2C2E31

Q41495391-C66FB58D-01B8-49DD-B360-30A136DC09F6

Q41495391-F2C2673B-60FB-4967-A9F0-75FF4E0E282C

P577

Q41495391-4D00CB74-A7A1-4F0C-A4C3-DCAAC0FD1B79

P5875

Q41495391-6B908597-46B4-4368-833C-2D4EF85C58EF

P698

Q41495391-20111AEE-741E-4309-A62E-EA4FA2E339B5

P932

Q41495391-B2E56BBC-C45B-4914-A83B-37227DB457DE

P356

P1433

Nature Communications

P1476

Bcl-2-like protein 13 is a mam ...... d mitochondrial fragmentation.

@en

P2093

Akitsugu Yamamoto

http://www.w3.org/2001/XMLSchema#string

Ayako Hashimoto

http://www.w3.org/2001/XMLSchema#string

Hiroki Yasui

http://www.w3.org/2001/XMLSchema#string

Hiromichi Ueda

http://www.w3.org/2001/XMLSchema#string

Hiroyuki Nakayama

http://www.w3.org/2001/XMLSchema#string

Kazuhiko Nishida

http://www.w3.org/2001/XMLSchema#string

Kinya Otsu

http://www.w3.org/2001/XMLSchema#string

Manabu Taneike

http://www.w3.org/2001/XMLSchema#string

Osamu Yamaguchi

http://www.w3.org/2001/XMLSchema#string

Shigemiki Omiya

http://www.w3.org/2001/XMLSchema#string

P2860

Bcl-rambo, a novel Bcl-2 homologue that induces apoptosis via its unique C-terminal extension

Mitochondrial outer-membrane protein FUNDC1 mediates hypoxia-induced mitophagy in mammalian cells

A role for NBR1 in autophagosomal degradation of ubiquitinated substrates

Parkin is recruited selectively to impaired mitochondria and promotes their autophagy

LC3, a mammalian homologue of yeast Apg8p, is localized in autophagosome membranes after processing

Fission and selective fusion govern mitochondrial segregation and elimination by autophagy

Selective degradation of mitochondria by mitophagy

Mechanisms of mitophagy

Autophagy-related Protein 32 Acts as Autophagic Degron and Directly Initiates Mitophagy

Yeast Miro GTPase, Gem1p, regulates mitochondrial morphology via a novel pathway.

P2888

P304

7527

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NCOMMS8527

http://www.w3.org/2001/XMLSchema#string

P407

P478

6

http://www.w3.org/2001/XMLSchema#string

P50

Ōsumi Yoshinori

P577

2015-07-06T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

280030215

http://www.w3.org/2001/XMLSchema#string

P698

26146385

http://www.w3.org/2001/XMLSchema#string

P932

4501433

http://www.w3.org/2001/XMLSchema#string