UNIPROT:Q9UID6 - FACTA Search

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Query: UNIPROT:Q9UID6 (Kruppel-like)
147 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report here the molecular cloning of an approximately 1-Mb region of recurrent amplification at 20q13.2 in breast cancer and other tumors and the delineation of a 260-kb common region of amplification. Analysis of the 1-Mb region produced evidence for five genes, ZNF217, ZNF218, and NABC1, PIC1L (PIC1-like), CYP24, and a pseudogene CRP (Cyclophillin Related Pseudogene). ZNF217 and NABC1 emerged as strong candidate oncogenes and were characterized in detail. NABC1 is predicted to encode a 585-aa protein of unknown function and is overexpressed in most but not all breast cancer cell lines in which it was amplified. ZNF217 is centrally located in the 260-kb common region of amplification, transcribed in multiple normal tissues, and overexpressed in all cell lines and tumors in which it is amplified and in two in which it is not. ZNF217 is predicted to encode alternately spliced, Kruppel-like transcription factors of 1,062 and 1,108 aa, each having a DNA-binding domain (eight C2H2 zinc fingers) and a proline-rich transcription activation domain.
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PMID:Positional cloning of ZNF217 and NABC1: genes amplified at 20q13.2 and overexpressed in breast carcinoma. 967 42

Some nuclear proteins of human HeLa and HepG2 cells are capable of binding to GCC-triplet repeats--(GCC)n > 3 in 5'-regulatory regions of a number of mammalian genes--G-C-elements. According to our previous data, nucleotide sequence (GCC)4 in promoter of mouse ribosomal protein L32 gene (rpL32) between 17 and 6 bp upstream of transcription start site interacts to nuclear proteins from HepG2 cells, and may be considered as a GCC-element. We suggest that one of those proteins, with molecular weight about 52 kDa, which may interact with rpL32 GCC-element, is a known conservative mammalian transcription factor ZF5. DNA-binding domain of ZF5 contains a few Kruppel-like Zn-fingers (Cys2His2-type) interacting with the GC-rich nucleotide sequences in 5'-regulatory regions of a number of mammalian genes. Our results (obtained by EMSA) showed that recombinant GST-ZF5 fused protein containing ZF5 DNA-binding domain specifically binds a few GS-rich sequences: (GCC)g-9riplet repeats, 5'-GCGCGC-3' (known ZF5 consensus binding site) and (more preferable) the fragment (-24...+1 bp) of rpL32 promoter. The high affinity of ZF5 DNA-domain binding with the latter may be explained by the presence in this fragment of two overlapped subsequences, each being capable of binding to ZF5: (GCC)4 and 5'-GCGCGC- 3'. Zf5 cDNA was cloned from HepG2 cells by RT-PCR method, and then used for construction of the gene expression vector. It has been shown that Zf5 cDNA expression vector specifically down-regulates (in luciferase assays) the activity of rpL32 promoter (-155...+159) including the above mentioned GC-rich subsequences by cotransfection of HepG2 cells. Therefore, our results enable us to consider GCC-elements as a novel class of ZF5 targets in 5'-regulatory regions of mammalian genes.
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PMID:[Transcription factor ZF5 regulates expression of mammalian gene containing GCC-triplet repeats in 5'-regulatory region in human hepatoma HepG2 cells]. 1680 15

Ikaros family zinc finger 1, encoded by IKZF1, are lymphoid-restricted zinc finger transcription factors that share common N-terminal Kruppel-like zinc finger DNA-binding domain. IKZF1 play multiple important roles on regulators of lymphocyte differentiation and hematological tumor suppressor. Our genome-wide association (GWA) studies in systemic lupus erythematosus (SLE) independently identified genetic variants in IKZF1 associated with SLE, which are supported by other studies. Previous studies found that lower expression of IKZF1 may play critical roles in activating some signal pathways involved in SLE, such as signal transducers and activators of transcription (STAT)4 and interferon pathways. In addition, IKZF1 has been implicated in roles involved in some hematologic traits or abnormalities, such as erythrocyte measures, myelofibrosis, and acute lymphoblastic leukemia (ALL), which may be common clinical manifestations or co-occurrence hematological diseases of patients with SLE. All these findings suggest that IKZF1 may play a critical role in the pathogenesis of SLE. In this article, we discuss the existing understanding of the role of IKZF1 on the physiological and pathological functions associated with SLE, providing insights that may assist in the development of new therapeutic strategies based on IKZF1 for patients with SLE.
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PMID:IKZF1: a critical role in the pathogenesis of systemic lupus erythematosus? 2278 32

Kruppel-like Factors (KLF) are responsible for regulating many genes involved in physiological and pathological processes. They are characterized by three conserved zinc-fingers in the DNA-binding domain, wherein mutations could affect the binding efficiency and transcription regulation. This study aimed to perform bioinformatics analysis to determine the most deleterious non-synonymous variants in KLFs involved in cardiac development and diseases, and their effects over the protein structure and stability. Eight hundred and fifty non-synonymous variants were found in seven KLFs related to cardiac diseases. Seventeen algorithms were used to predict the effect of selected variants over the structure and function of seven KLFs. The Top3 variants were selected in each category of conserved and non-conserved residues in the zinc-finger (ZF) domain. KLF5 p.Cys410Phe was the only variant predicted as deleterious in all algorithms, occurring in a conserved residue of zinc ion interaction. KLF15 p.Arg364Pro was the only variant predicted to affect the DNA-binding, and also occurs in a conserved ZF-domain. Our bioinformatics analysis determined potential variants that may lead to development of cardiac diseases, as well as reinforced the importance of KLF analysis in vitro and in vivo.
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PMID:Bioinformatics analysis of non-synonymous variants in the KLF genes related to cardiac diseases. 2940 33