ATG12/YBR217W Literature Guide Help

Other names published for ATG12: APG12, YBR217W

ATG12 - Non-Fungal Related Genes/Proteins (25)

ReferenceOther Genes Addressed
Jiang Q, et al.  (2012) Analysis of autophagy genes in microalgae: chlorella as a potential model to study mechanism of autophagy. PLoS One 7(7):e41826
Pyo JO, et al.  (2012) Molecules and their functions in autophagy. Exp Mol Med 44(2):73-80
Kanki T and Klionsky DJ  (2010) The molecular mechanism of mitochondria autophagy in yeast. Mol Microbiol ()
Godefroy N, et al.  (2009) Identification of autophagy genes in Ciona intestinalis: A new experimental model to study autophagy mechanism. Autophagy 5(6):805-15
Huett A and Xavier R  (2009) Building complex biological networks based upon model organisms: Mapping the human autophagy interactome via a hybrid yeast-human protein interaction network. Autophagy 5(6):884-6
Rigden DJ, et al.  (2009) Autophagy in protists: Examples of secondary loss, lineage-specific innovations, and the conundrum of remodeling a single mitochondrion. Autophagy 5(6):784-94
Williams RA, et al.  (2009) Characterization of unusual families of ATG8-like proteins and ATG12 in the protozoan parasite Leishmania major. Autophagy 5(2):159-72
Fujioka Y, et al.  (2008) In vitro reconstitution of plant atg8 and atg12 conjugation systems essential for autophagy. J Biol Chem 283(4):1921-8
Meijer WH, et al.  (2007) ATG genes involved in non-selective autophagy are conserved from yeast to man, but the selective Cvt and pexophagy pathways also require organism-specific genes. Autophagy 3(2):106-16
Hanada T and Ohsumi Y  (2005) Structure-function relationship of Atg12, a ubiquitin-like modifier essential for autophagy. Autophagy 1(2):110-8
Suzuki NN, et al.  (2005) The crystal structure of plant ATG12 and its biological implication in autophagy. Autophagy 1(2):119-26
Thompson AR, et al.  (2005) Autophagic nutrient recycling in Arabidopsis directed by the ATG8 and ATG12 conjugation pathways. Plant Physiol 138(4):2097-110
Mizushima N, et al.  (2003) Mouse Apg16L, a novel WD-repeat protein, targets to the autophagic isolation membrane with the Apg12-Apg5 conjugate. J Cell Sci 116(Pt 9):1679-88
Mizushima N, et al.  (2003) Role of the Apg12 conjugation system in mammalian autophagy. Int J Biochem Cell Biol 35(5):553-61
Nemoto T, et al.  (2003) The mouse APG10 homologue, an E2-like enzyme for Apg12p conjugation, facilitates MAP-LC3 modification. J Biol Chem 278(41):39517-26
Otto GP, et al.  (2003) Macroautophagy is required for multicellular development of the social amoeba Dictyostelium discoideum. J Biol Chem 278(20):17636-45
Mizushima N, et al.  (2002) Mouse Apg10 as an Apg12-conjugating enzyme: analysis by the conjugation-mediated yeast two-hybrid method. FEBS Lett 532(3):450-4
Tanida I, et al.  (2002) Human Apg3p/Aut1p homologue is an authentic E2 enzyme for multiple substrates, GATE-16, GABARAP, and MAP-LC3, and facilitates the conjugation of hApg12p to hApg5p. J Biol Chem 277(16):13739-44
Mizushima N, et al.  (2001) Dissection of autophagosome formation using Apg5-deficient mouse embryonic stem cells. J Cell Biol 152(4):657-68
Tanida I, et al.  (2001) The human homolog of Saccharomyces cerevisiae Apg7p is a Protein-activating enzyme for multiple substrates including human Apg12p, GATE-16, GABARAP, and MAP-LC3. J Biol Chem 276(3):1701-6
Ichimura Y, et al.  (2000) A ubiquitin-like system mediates protein lipidation. Nature 408(6811):488-92
Vierstra RD and Callis J  (1999) Polypeptide tags, ubiquitous modifiers for plant protein regulation. Plant Mol Biol 41(4):435-42
Jentsch S and Ulrich HD  (1998) Protein breakdown. Ubiquitous deja vu. Nature 395(6700):321, 323
Mizushima N, et al.  (1998) A new protein conjugation system in human. The counterpart of the yeast Apg12p conjugation system essential for autophagy. J Biol Chem 273(51):33889-92
Mizushima N, et al.  (1998) A protein conjugation system essential for autophagy. Nature 395(6700):395-8