General information | Literature | Expression | Regulation | Mutation | Interaction |
Basic Information |
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Gene ID | 6767 |
Name | ST13 |
Synonymous | AAG2|FAM10A1|FAM10A4|HIP|HOP|HSPABP|HSPABP1|P48|PRO0786|SNC6;suppression of tumorigenicity 13 (colon carcinoma) (Hsp70 interacting protein);ST13;suppression of tumorigenicity 13 (colon carcinoma) (Hsp70 interacting protein) |
Definition | Hsp70-interacting protein|aging-associated protein 2|heat shock 70kD protein binding protein|hsc70-interacting protein|progesterone receptor-associated p48 protein|putative tumor suppressor ST13|renal carcinoma antigen NY-REN-33|suppression of tumorigenic |
Position | 22q13.2 |
Gene type | protein-coding |
Title |
Abstract |
Characterization of FAM10A4, a member of the ST13 tumor suppressor gene family that maps to the 13q14.3 region associated with B-Cell leukemia, multiple myeloma, and prostate cancer. | Using the 650-kb DNA sequence from the minimally deleted region in B-cell chronic lymphocytic leukemia (BCLL), we have identified a new gene, FAM10A4, that maps to the proximal end of the region. This gene has been shown to be part of a now six-member family of genes with high homology to the ST13 tumor suppressor gene. We have established conditions to specifically undertake mutation studies of the chromosome 13 member of this family and have identified a Ser71Leu change in BCLL samples, which is apparently a polymorphism. The characterization of this gene will permit mutation studies in other tumor cell types such as multiple myeloma and prostate cancer, which also show genetic loss in the 13q14 region. |
Assignment1 of human putative tumor suppressor genes ST13 (alias SNC6) and ST14 (alias SNC19) to human chromosome bands 22q13 and 11q24-->q25 by in situ hybridization. | The aim of this study was to establish an experimentally based cutoff level for assessing p53 immunoreactivity in colorectal tumors. The accumulation of p53 protein in 273 colorectal tumors was correlated with previously obtained data on TP53 mutation and loss of heterozygosity at two 17p13 loci in the same tumors. The monoclonal antibody PAb 1801 was used for p53 staining, and the results obtained by immunohistochemistry and immunoblotting were similar. mutation analyses of exons 5-8 were performed using constant denaturant gel electrophoresis followed by sequencing. There were no statistically significant differences for any measured TP53 gene alteration between the group of tumors without p53-positive nuclei (n = 83) and the group with <5% positive nuclei (n = 58). The majority of mutations within these groups were deletions/insertions and nonsense mutations without p53 accumulation. Therefore, we assume that 5% p53-positive nuclei is the relevant cutoff level to assess TP53 damage in colorectal tumors. A prerequisite for this recommendation is optimal conditions for p53 protein detection. The parameters for p53 dysfunction were correlated to DNA aneuploidy measured by flow cytometry. TP53 mutations were significantly associated with DNA aneuploidy (P < 0.00001), and a nonrandom distribution of TP53 gene alterations among diploid (DI = 1), hyperdiploid (1.0 < DI < 1.3), and highly aneuploid (DI > 1.3) tumors indicates that DNA hyperdiploid tumors constitute a separate developmental entity different from tumors with gross aneuploidy. |