ZNF174 antibody - N-terminal region (P100902_T100)
- Known as:
- ZNF174 (anti-) - N-terminal region (P100902_T100)
- Catalog number:
- p100902_t100
- Product Quantity:
- USD
- Category:
- -
- Supplier:
- Aviva Systems Biology
- Gene target:
- ZNF174 antibody - N-terminal region (P100902_T100)
Related genes to: ZNF174 antibody - N-terminal region (P100902_T100)
- Gene:
- ZNF174 NIH gene
- Name:
- zinc finger protein 174
- Previous symbol:
- -
- Synonyms:
- ZSCAN8
- Chromosome:
- 16p13.3
- Locus Type:
- gene with protein product
- Date approved:
- 1995-07-11
- Date modifiied:
- 2016-10-05
Related products to: ZNF174 antibody - N-terminal region (P100902_T100)
Related articles to: ZNF174 antibody - N-terminal region (P100902_T100)
- Retroviral assembly is driven by multiple interactions mediated by the Gag polyprotein, the main structural component of the forming viral shell. Critical determinants of Gag oligomerization are contained within the C-terminal domain (CTD) of the capsid protein, which also harbors a conserved sequence motif, the major homology region (MHR), in the otherwise highly variable Gag. An unexpected clue about the MHR function in retroviral assembly emerges from the structure of the zinc finger-associated SCAN domain we describe here. The SCAN dimer adopts a fold almost identical to that of the retroviral capsid CTD but uses an entirely different dimerization interface caused by swapping the MHR-like element between the monomers. Mutations in retroviral capsid proteins and functional data suggest that a SCAN-like MHR-swapped CTD dimer forms during immature particle assembly. In the SCAN-like dimer, the MHR contributes the major part of the large intertwined dimer interface explaining its functional significance. - Source: PubMed
Ivanov DmitriStone James RMaki Jenny LCollins TuckerWagner Gerhard - The SCAN domain is a conserved region of 84 residues found predominantly in zinc finger DNA-binding proteins in vertebrates. The SCAN domain appears to control the association of SCAN domain containing proteins into noncovalent complexes and may be the primary mechanism underlying partner choice in the oligomerization of these transcription factors. Here we have overexpressed, purified, and characterized the isolated SCAN domain (amino acids 37-132) from ZNF174. Both size exclusion chromatography and equilibrium sedimentation analysis demonstrate that the ZNF174 SCAN domain forms a homodimer. Circular dichroism shows that the isolated SCAN domain dimer has approximately 42% alpha-helix. Thermal denaturation experiments indicate that the SCAN domain undergoes a single reversible unfolding transition with a T(m) of over 70 degrees C. The midpoint of the equilibrium unfolding transition increases with increasing protein concentration, consistent with a two-state unfolding transition in which folded dimer is in equilibrium with unfolded monomer. These findings demonstrate that the isolated SCAN domain forms a stable dimer and support a model in which the SCAN domain is capable of mediating the selective dimerization of a large family of vertebrate-specific, zinc finger-containing transcription factors. - Source: PubMed
Publication date: 2001/12/11
Stone James RMaki Jenny LBlacklow Stephen CCollins Tucker - A number of Cys(2)His(2) zinc finger proteins contain a highly conserved amino-terminal motif termed the SCAN domain. This element is an 80-residue, leucine-rich region that contains three segments strongly predicted to be alpha-helices. In this report, we show that the SCAN motif functions as an oligomerization domain mediating self-association or association with other proteins bearing SCAN domains. These findings suggest that the SCAN domain plays an important role in the assembly and function of this newly defined subclass of transcriptional regulators. - Source: PubMed
Williams A JBlacklow S CCollins T - In order to further our understanding of the epigenetic modifications of DNA and its role in imprinting, we examined DNA methylation patterns of human tissues of uniparental origin. We used complete hydatidiform moles (CHM), which are totally androgenetic conceptions, to examine the paternal methylation pattern in the absence of a maternal contribution and we used ovarian teratomas to represent the maternal counterpart. We carried out an analysis of DNA methylation of a gene which has been shown to contain sites which are differentially methylated in a parent-specific fashion. The gene, ZNF127, is located on chromosome 15q11-q13 in the region associated with Prader-Willi and Angelman syndromes. The parent-of-origin DNA methylation has been postulated to reflect the presence of an imprint and recent studies have confirmed that ZNF127 is differentially expressed only from the paternal chromosome. We identified a unique pattern of hyper- and hypomethylated sites in androgenetic conceptions which was nearly identical to the paternal pattern found in sperm. This may represent the paternal germ-line methylation imprint. We also studied partial hydatidiform moles, non-molar triploid conceptions, normal chorionic villi, and somatic tissue. These all demonstrated a modified DNA methylation pattern characteristic of normal chorionic villi with only limited findings of the imprint. Our results suggest that human androgenetic conceptions may provide an excellent model to analyze epigenetic DNA modifications, such as methylation, in imprinted genes. The paternal allele-specific methylation imprint will also be useful clinically to confirm the androgenetic nature of suspected molar conceptions in which parental blood samples may not be available. - Source: PubMed
Mowery-Rushton P ADriscoll D JNicholls R DLocker JSurti U - To identify genes that can repress the expression of growth regulatory molecules, a human fetal cDNA library was screened with a degenerate oligonucleotide that corresponds to the conserved stretch of 6 amino acids connecting successive zinc-finger regions in the Wilms' tumor suppressor/Egr-1 family of DNA-binding proteins. One clone, designated zinc-finger protein 174 (ZNF174), corresponds to a putative transcription factor with three zinc fingers and a novel finger-associated domain, designated the SCAN box. The three Cys2-His2-type zinc fingers are positioned at the carboxyl terminus, while the 65-amino acid finger-associated SCAN box is located near the amino terminus. Chromosomal localization using somatic cell hybrid analysis and fluorescent in situ hybridization mapped the gene for ZNF174 to human chromosome 16p13.3. The 2.5-kilobase transcript from this gene is expressed in a variety of human organs, but most strongly in adult testis and ovary. Fusion of the upstream regulatory region of ZNF174 to the DNA-binding domain of GAL4 revealed that the gene could confer a repression function on the heterologous DNA-binding domain. ZNF174 selectively repressed reporter activity driven by the platelet-derived growth factor-B chain and transforming growth factor-beta 1 promoters and bound to DNA in a specific manner. This member of the C2H2-type zinc-finger family is a novel transcriptional repressor. - Source: PubMed
Williams A JKhachigian L MShows TCollins T