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Search results 301 to 352 out of 352 for Mafk

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Type Details Score
Publication
15665000 | -
First Author: Zhao L
Year: 2005
Journal: J Biol Chem
Title: The islet beta cell-enriched MafA activator is a key regulator of insulin gene transcription.
Volume: 280
Issue: 12
Pages: 11887-94
Publication
15923615 | J:99126
First Author: Zhang C
Year: 2005
Journal: Mol Cell Biol
Title: MafA is a key regulator of glucose-stimulated insulin secretion.
Volume: 25
Issue: 12
Pages: 4969-76
Publication
11583919 | -
First Author: Shimokawa N
Year: 2001
Journal: Cell Signal
Title: MafG-2 is a novel Maf protein that is expressed by stimulation of extracellular H(+).
Volume: 13
Issue: 11
Pages: 835-9
Publication
19168627 | -
First Author: Schembri F
Year: 2009
Journal: Proc Natl Acad Sci U S A
Title: MicroRNAs as modulators of smoking-induced gene expression changes in human airway epithelium.
Volume: 106
Issue: 7
Pages: 2319-24
Publication
9525857 | -
First Author: Ogino H
Year: 1998
Journal: Science
Title: Induction of lens differentiation by activation of a bZIP transcription factor, L-Maf.
Volume: 280
Issue: 5360
Pages: 115-8
Publication
12011435 | -
First Author: Olbrot M
Year: 2002
Journal: Proc Natl Acad Sci U S A
Title: Identification of beta-cell-specific insulin gene transcription factor RIPE3b1 as mammalian MafA.
Volume: 99
Issue: 10
Pages: 6737-42
Publication
9674710 | -
First Author: Benkhelifa S
Year: 1998
Journal: Oncogene
Title: mafA, a novel member of the maf proto-oncogene family, displays developmental regulation and mitogenic capacity in avian neuroretina cells.
Volume: 17
Issue: 2
Pages: 247-54
Publication
20627934 | J:169626
First Author: Artner I
Year: 2010
Journal: Diabetes
Title: MafA and MafB regulate genes critical to beta-cells in a unique temporal manner.
Volume: 59
Issue: 10
Pages: 2530-9
Publication
21719305 | -
First Author: Hang Y
Year: 2011
Journal: Trends Endocrinol Metab
Title: MafA and MafB activity in pancreatic β cells.
Volume: 22
Issue: 9
Pages: 364-73
Publication
12217315 | J:78764
First Author: Sadl V
Year: 2002
Journal: Dev Biol
Title: The mouse Kreisler (Krml1/MafB) segmentation gene is required for differentiation of glomerular visceral epithelial cells.
Volume: 249
Issue: 1
Pages: 16-29
Publication
19632180 | J:157326
First Author: Sarrazin S
Year: 2009
Journal: Cell
Title: MafB restricts M-CSF-dependent myeloid commitment divisions of hematopoietic stem cells.
Volume: 138
Issue: 2
Pages: 300-13
Publication
22387013 | -
First Author: Zankl A
Year: 2012
Journal: Am J Hum Genet
Title: Multicentric carpotarsal osteolysis is caused by mutations clustering in the amino-terminal transcriptional activation domain of MAFB.
Volume: 90
Issue: 3
Pages: 494-501
Publication
22445942 | -
 
First Author: Jayaram H
Year: 2012
Journal: Exp Eye Res
Title: Focus on molecules: neural retina leucine zipper (NRL).
Volume: 104
Pages: 99-100
Publication
11694879 | J:78692
First Author: Mears AJ
Year: 2001
Journal: Nat Genet
Title: Nrl is required for rod photoreceptor development.
Volume: 29
Issue: 4
Pages: 447-52
Publication
10192380 | -
First Author: Bessant DA
Year: 1999
Journal: Nat Genet
Title: A mutation in NRL is associated with autosomal dominant retinitis pigmentosa.
Volume: 21
Issue: 4
Pages: 355-6
Publication
22334370 | -
First Author: Neveling K
Year: 2012
Journal: Hum Mutat
Title: Next-generation genetic testing for retinitis pigmentosa.
Volume: 33
Issue: 6
Pages: 963-72
Publication
15591106 | -
First Author: Nishiguchi KM
Year: 2004
Journal: Proc Natl Acad Sci U S A
Title: Recessive NRL mutations in patients with clumped pigmentary retinal degeneration and relative preservation of blue cone function.
Volume: 101
Issue: 51
Pages: 17819-24
Protein Domain
IPR028571 | MafB
Type: Family
Description: Maf transcription factors form a distinct family of the basic leucine zipper (bZip) transcription factors. The Maf family is divided into two subclasses, large Mafs (c-maf, mafB, and mafA/L-maf, nrl) and small Mafs (MafF, MafK and MafG). Both subclasses contain leucine-zipper motifs, which allow homodimerisation as well as heterodimerisation with a variety of other bZip proteins. In contrast to the small Mafs, the large Maf proteins contain a transactivator domain in their amino terminus.MafB plays critical roles in a variety of cellular differentiation processes, including in kidney podocytes [], macrophages [, ], and pancreatic islet alpha and beta-cells, which are responsible for the production of the hormones glucagon and insulin respectively. MafB is also expressed in alpha-cells in adult pancreas and is important for their function [, , , ].Mutations in Maf gene cause multicentric carpotarsal osteolysis syndrome (MCTO), which is a rare skeletal disorder, usually presenting in early childhood with a clinical picture mimicking juvenile rheumatoid arthritis [].
Protein Domain
IPR028575 | Nrl
Type: Family
Description: Maf transcription factors form a distinct family of the basic leucine zipper (bZip) transcription factors. The Maf family is divided into two subclasses, large Mafs (c-maf, mafB, and mafA/L-maf, Nrl) and small Mafs (MafF, MafK and MafG). Both subclasses contain leucine-zipper motifs, which allow homodimerisation as well as heterodimerisation with a variety of other bZip proteins. In contrast to the small Mafs, the large Maf proteins contain a transactivator domain in their amino terminus.Neural retina-specific leucine zipper protein (Nrl) is a member of the Maf family of transcription factors that regulates the expression of rod-specific genes, including rhodopsin [, , ]. Mutations in Nrl cause retinitis pigmentosa 27 (RP27), which is a retinal dystrophy belonging to the group of pigmentary retinopathies [, ], and retinal degeneration autosomal recessive clumped pigment type (RDCP), which is a retinopathy characterised by night blindness since early childhood, consistent with a severe reduction in rod function [].
Protein Domain
IPR028562 | MafA
Type: Family
Description: Maf transcription factors form a distinct family of the basic leucine zipper (bZip) transcription factors. The Maf family is divided into two subclasses, large Mafs (c-maf, mafB, and mafA/L-maf, nrl) and small Mafs (MafF, MafK and MafG). Both subclasses contain leucine-zipper motifs, which allow homodimerisation as well as heterodimerisation with a variety of other bZip proteins. In contrast to the small Mafs, the large Maf proteins contain a transactivator domain in their amino terminus []. The small Maf proteins might contribute to oncogenic processes by participating in antioxidant responses, while large Maf proteins have been directly implicated in carcinogenesis []. This entry represents MafA. MafA plays a critical role in the regulation of crystalline genes and lens development [, ]. It also binds the insulin enhancer element RIPE3b and regulates the insulin gene transcription [, , ].
Protein Domain
IPR028551 | MafG
Type: Family
Description: Maf transcription factors form a distinct family of the basic leucine zipper (bZip) transcription factors []. The Maf family is divided into two subclasses, large Mafs and small Mafs (MafF, MafK []and MafG []). Both subclasses contain leucine-zipper motifs, which allow homodimerisation as well as heterodimerisation with a variety of other bZip proteins. Small Mafs can act as negative regulators of transcription by recruiting transcriptional repressors or by forming homodimers that can then displace active dimers. Small Mafs lack a transactivator domain, but they can also serve as transcriptional activators by dimerising with other (usually larger) basic-zipper proteins and recruiting them to specific DNA-binding sites. This entry represents MafG. The p45/MafG heterodimer plays a role in the regulation of erythropoiesis []and may be involved in signal transduction of extracellular H+ []. MAFG is up-regulated in smokers [].
Publication
10037736 | J:53336
First Author: Kobayashi A
Year: 1999
Journal: J Biol Chem
Title: Molecular cloning and functional characterization of a new Cap'n' collar family transcription factor Nrf3.
Volume: 274
Issue: 10
Pages: 6443-52
Publication
24202329 | J:206564
First Author: Chiou SS
Year: 2013
Journal: Cancers (Basel)
Title: Control of Oxidative Stress and Generation of Induced Pluripotent Stem Cell-like Cells by Jun Dimerization Protein 2.
Volume: 5
Issue: 3
Pages: 959-84
Publication
27427974 | J:317872
First Author: Pajares M
Year: 2016
Journal: Autophagy
Title: Transcription factor NFE2L2/NRF2 is a regulator of macroautophagy genes.
Volume: 12
Issue: 10
Pages: 1902-1916
Publication
12356737 | J:100802
First Author: Sun J
Year: 2002
Journal: EMBO J
Title: Hemoprotein Bach1 regulates enhancer availability of heme oxygenase-1 gene.
Volume: 21
Issue: 19
Pages: 5216-24
Publication
27030212 | J:318621
First Author: Matsumoto M
Year: 2016
Journal: Genes Cells
Title: Genomewide approaches for BACH1 target genes in mouse embryonic fibroblasts showed BACH1-Pparg pathway in adipogenesis.
Volume: 21
Issue: 6
Pages: 553-67
Publication
8910469 | J:36621
First Author: Ohtsu H
Year: 1996
Journal: J Biol Chem
Title: Histidine decarboxylase expression in mouse mast cell line P815 is induced by mouse peritoneal cavity incubation.
Volume: 271
Issue: 45
Pages: 28439-44
Publication
9478996 | J:46244
First Author: Nagai T
Year: 1998
Journal: J Biol Chem
Title: Regulation of NF-E2 activity in erythroleukemia cell differentiation.
Volume: 273
Issue: 9
Pages: 5358-65
Publication
25763640 | J:227449
First Author: Nomoto H
Year: 2015
Journal: Endocrinology
Title: Inhibition of Small Maf Function in Pancreatic β-Cells Improves Glucose Tolerance Through the Enhancement of Insulin Gene Transcription and Insulin Secretion.
Volume: 156
Issue: 10
Pages: 3570-80
Publication
23936317 | -
First Author: Chen Z
Year: 2013
Journal: PLoS One
Title: Nuclear translocation of B-cell-specific transcription factor, BACH2, modulates ROS mediated cytotoxic responses in mantle cell lymphoma.
Volume: 8
Issue: 8
Pages: e69126
Publication
23754397 | J:197975
First Author: Tsukumo S
Year: 2013
Journal: Proc Natl Acad Sci U S A
Title: Bach2 maintains T cells in a naive state by suppressing effector memory-related genes.
Volume: 110
Issue: 26
Pages: 10735-40
Publication
22875853 | -
First Author: Liang Y
Year: 2012
Journal: J Biol Chem
Title: Transcriptional network analysis identifies BACH1 as a master regulator of breast cancer bone metastasis.
Volume: 287
Issue: 40
Pages: 33533-44
Protein Domain
IPR043321 | bZIP_BACH
Type: Domain
Description: BACH proteins are Cap'n'Collar (CNC) Basic leucine zipper (bZIP) transcription factors that are defined by a conserved 43-amino acid region (called the CNC domain) located N-terminal to the bZIP DNA-binding domain. In addition, they contain a BTB domain (Broad complex-Tramtrack-Bric-a-brac domain, also known as the POZ [poxvirus and zinc finger]domain) that is absent in other CNC proteins. Veterbrates contain two members, BACH1 and BACH2. BACH1 forms heterodimers with small Mafs such as MafK to function as a repressor of heme oxygenase-1 (HO-1) gene (Hmox-1) enhancers []. It has also been implicated as the master regulator of breast cancer bone metastasis []. The BACH1 bZIP transcription factor should not be confused with the protein originally named as BRCA1-Associated C-terminal Helicase1 (BACH1), which has been renamed BRIP1 (BRCA1 Interacting Protein C-terminal Helicase1) and also called FANCJ. BACH2 is a B-cell specific transcription factor that plays a critical role in oxidative stress-mediated apoptosis []. It plays an important role in class switching and somatic hypermutation of immunoglobulin genes [].
Publication
24232097 | J:207226
 
First Author: Tanigawa S
Year: 2013
Journal: Cell Death Dis
Title: Jun dimerization protein 2 is a critical component of the Nrf2/MafK complex regulating the response to ROS homeostasis.
Volume: 4
Pages: e921
Protein
A0A2I3BQU2
Organism: Mus musculus/domesticus
Length: 62  
Fragment?: true
Publication
7665895 | J:105228
First Author: Zhumabekov T
Year: 1995
Journal: J Immunol Methods
Title: Improved version of a human CD2 minigene based vector for T cell-specific expression in transgenic mice.
Volume: 185
Issue: 1
Pages: 133-40
Protein
P97302
Organism: Mus musculus/domesticus
Length: 739  
Fragment?: false
Protein
P97303
Organism: Mus musculus/domesticus
Length: 839  
Fragment?: false
Protein
P54846
Organism: Mus musculus/domesticus
Length: 237  
Fragment?: false
Protein
P54841
Organism: Mus musculus/domesticus
Length: 323  
Fragment?: false
Protein
Q8CF90
Organism: Mus musculus/domesticus
Length: 359  
Fragment?: false
Protein
O54790
Organism: Mus musculus/domesticus
Length: 162  
Fragment?: false
Protein
Q543Y0
Organism: Mus musculus/domesticus
Length: 237  
Fragment?: false
Protein
Q3URL4
Organism: Mus musculus/domesticus
Length: 739  
Fragment?: false
Protein
Q80WG0
Organism: Mus musculus/domesticus
Length: 240  
Fragment?: true
Protein
A0A2I3BPV3
Organism: Mus musculus/domesticus
Length: 226  
Fragment?: true
Protein
Q3US24
Organism: Mus musculus/domesticus
Length: 739  
Fragment?: false
Protein
Q3US63
Organism: Mus musculus/domesticus
Length: 739  
Fragment?: false
Protein
Q8C8Y1
Organism: Mus musculus/domesticus
Length: 237  
Fragment?: false
Protein
Q3V2C2
Organism: Mus musculus/domesticus
Length: 168  
Fragment?: true
Publication
15489334 | -
First Author: Gerhard DS
Year: 2004
Journal: Genome Res
Title: The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC).
Volume: 14
Issue: 10B
Pages: 2121-7
Publication
21183079 | J:292518
First Author: Huttlin EL
Year: 2010
Journal: Cell
Title: A tissue-specific atlas of mouse protein phosphorylation and expression.
Volume: 143
Issue: 7
Pages: 1174-89




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