scholarly article | Q13442814 |
P2093 | author name string | Yong Liu | |
Yanping Zhang | |||
Lee M Graves | |||
Koji Itahana | |||
Aiwen Jin | |||
Patrick L Leslie | |||
P2860 | cites work | The splicing factor-associated protein, p32, regulates RNA splicing by inhibiting ASF/SF2 RNA binding and phosphorylation | Q22001546 |
Oxygen-dependent expression of cytochrome c oxidase subunit 4-2 gene expression is mediated by transcription factors RBPJ, CXXC5 and CHCHD2 | Q24307974 | ||
Isolation, cDNA cloning, and overexpression of a 33-kD cell surface glycoprotein that binds to the globular "heads" of C1q | Q24315866 | ||
Functional expression of cloned human splicing factor SF2: homology to rna-binding proteins, U1 70K, and drosophila splicing regulators | Q24317722 | ||
Castanospermine inhibits alpha-glucosidase activities and alters glycogen distribution in animals | Q24568239 | ||
Endoplasmic reticulum stress and the inflammatory basis of metabolic disease | Q24633352 | ||
Lipid droplets at a glance | Q24646389 | ||
p32 protein, a splicing factor 2-associated protein, is localized in mitochondrial matrix and is functionally important in maintaining oxidative phosphorylation | Q27935814 | ||
Stress-induced phosphorylation and activation of the transcription factor CHOP (GADD153) by p38 MAP Kinase | Q28280649 | ||
The mitochondrial transporter family SLC25: identification, properties and physiopathology | Q28282100 | ||
Regulation of hepatic lipogenesis by the transcription factor XBP1 | Q28507784 | ||
A spectrophotometric assay for glucosidase I | Q72547552 | ||
Retargeting of the mitochondrial protein p32/gC1Qr to a cytoplasmic compartment and the cell surface | Q74331022 | ||
p32/gC1qR is indispensable for fetal development and mitochondrial translation: importance of its RNA-binding ability | Q28587023 | ||
Phospholipid synthesis in a membrane fraction associated with mitochondria | Q28647511 | ||
Constitutive role for IRE1α-XBP1 signaling pathway in the insulin-mediated hepatic lipogenic program | Q30426645 | ||
Mitochondrial p32 protein is a critical regulator of tumor metabolism via maintenance of oxidative phosphorylation | Q33705060 | ||
Glycosylation, hypogammaglobulinemia, and resistance to viral infections | Q33789632 | ||
Bridging the gap: membrane contact sites in signaling, metabolism, and organelle dynamics | Q33797013 | ||
p32 heterozygosity protects against age- and diet-induced obesity by increasing energy expenditure | Q33916214 | ||
Aberrant lipid metabolism disrupts calcium homeostasis causing liver endoplasmic reticulum stress in obesity | Q34181503 | ||
A unique mitochondria-associated membrane fraction from rat liver has a high capacity for lipid synthesis and contains pre-Golgi secretory proteins including nascent lipoproteins | Q34325693 | ||
The enzymes of neutral lipid synthesis | Q34360744 | ||
How N-linked oligosaccharides affect glycoprotein folding in the endoplasmic reticulum | Q34441056 | ||
Chronic enrichment of hepatic endoplasmic reticulum-mitochondria contact leads to mitochondrial dysfunction in obesity | Q34449244 | ||
Mice deficient in the respiratory chain gene Cox6a2 are protected against high-fat diet-induced obesity and insulin resistance | Q34608360 | ||
The unfolded protein response in nutrient sensing and differentiation | Q34664763 | ||
Mitofusin 2 ablation increases endoplasmic reticulum-mitochondria coupling | Q35567148 | ||
CHCHD2 inhibits apoptosis by interacting with Bcl-x L to regulate Bax activation. | Q35579307 | ||
Pharmacological ER stress promotes hepatic lipogenesis and lipid droplet formation | Q35747483 | ||
The impact of the unfolded protein response on human disease | Q36062081 | ||
ER stress and diseases. | Q36731474 | ||
Deficiency of α-glucosidase I alters glycoprotein glycosylation and lifespan in Caenorhabditis elegans. | Q37154034 | ||
Nutritional regulation of the fatty acid synthase promoter in vivo: sterol regulatory element binding protein functions through an upstream region containing a sterol regulatory element | Q37254332 | ||
Mitofusin 2 in POMC neurons connects ER stress with leptin resistance and energy imbalance. | Q37339111 | ||
Regulation of sterol regulatory element binding proteins in livers of fasted and refed mice | Q37375695 | ||
Endoplasmic reticulum-mitochondria contacts: function of the junction | Q37417736 | ||
Endoplasmic reticulum stress, obesity and diabetes | Q37926034 | ||
MAM (mitochondria-associated membranes) in mammalian cells: lipids and beyond | Q38169449 | ||
The Lec23 Chinese hamster ovary mutant is a sensitive host for detecting mutations in alpha-glucosidase I that give rise to congenital disorder of glycosylation IIb (CDG IIb). | Q38336319 | ||
The life cycle of lipid droplets | Q38363818 | ||
Mitochondria-Associated Membranes Response to Nutrient Availability and Role in Metabolic Diseases | Q38964888 | ||
Adipose-specific deletion of TFAM increases mitochondrial oxidation and protects mice against obesity and insulin resistance | Q39241662 | ||
Fatty acid synthesis in liver and adipose tissue | Q40156434 | ||
Obesity-induced endoplasmic reticulum stress causes chronic inflammation in adipose tissue | Q41248481 | ||
The role of SREBP-1c in nutritional regulation of lipogenic enzyme gene expression | Q43997258 | ||
Targeted deletion of AIF decreases mitochondrial oxidative phosphorylation and protects from obesity and diabetes | Q46915798 | ||
Acetyl-CoA carboxylase beta gene is regulated by sterol regulatory element-binding protein-1 in liver | Q47891691 | ||
Obesity: stressing about unfolded proteins. | Q53992488 | ||
Purification and characterization of trimming glucosidase I from pig liver. | Q54346726 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | fj201701004RR | |
P577 | publication date | 2018-02-20 | |
P1433 | published in | FASEB Journal | Q520194 |
P1476 | title | p32 regulates ER stress and lipid homeostasis by down-regulating GCS1 expression |
Q98205106 | Porcine reproductive and respiratory syndrome virus infection induces endoplasmic reticulum stress, facilitates virus replication, and contributes to autophagy and apoptosis | cites work | P2860 |
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