Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P50502 (Hip)
7,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-frequency persistence to the lethal effects of inhibition of either DNA or peptidoglycan synthesis, the Hip phenotype, results from mutations at the hip locus of Escherichia coli K-12. The nucleotide sequence of DNA fragments which complement these mutations revealed an operon consisting of a possible regulatory region, including sequences with modest homology to an E. coli promoter, and two open reading frames which are translated both in vitro and in vivo. The stop codon of a 264-bp open reading frame, hipB, and the start codon of a 1,320-bp open reading frame, hipA, share an adenine residue. Assays of promoter strength, the location of the probable promoter with respect to the start of transcription, and codon usage all indicate that hipB and hipA are weakly expressed genes. The activity of the promoter is impaired by an adjacent downstream sequence which includes the coding region of hipB. The impairment is partially relieved by insertion of a premature translation termination signal within the coding region of hipB, suggesting involvement of the HipB protein in the regulation of this promoter. The arrangement of hipB and hipA within the operon and the toxicity of hipA for strains defective in or lacking hipB suggest an important interaction between the products of these genes.
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PMID:Structure and organization of hip, an operon that affects lethality due to inhibition of peptidoglycan or DNA synthesis. 171 62

Bacteriophage phi 80 and lambda-phi 80 hybrid phage of the type lambda (QSR)80, in which the rightmost 10% of the lambda genome is replaced by corresponding phi 80 material, are unable to grow lytically in himA and hip/himD mutants of Escherichia coli K12 at 32 degrees. The genetic element responsible for the growth defect, rha, has been mapped to the (QSR)80 region and was located more precisely by restriction enzyme and DNA heteroduplex analysis of mutations that result in loss of the Rha phenotype. Such an Rha mutant carrying a 1.5-kb deletion beginning 0.58 kb from the right end of the chromosome and extending leftward locates the rha locus at least in part within this region of (QSR)80. In addition, a substitution derivative of lambda (QSR)80 was isolated which does not exhibit the Rha phenotype. In this phage, lambda-80hy95, the right half of the (QSR)80 region is replaced by DNA homologous to the 95-100% segment of lambda. In mixed infections in the himA42 host at 32 degrees, lambda + does not complement lambda (QSR)80 for growth and the burst size of the coinfecting lambda + is reduced in comparison to that in a single infection. Deletion mutants of lambda (QSR)80 that grow normally in himA42 at 32 degrees in single infections are inhibited for growth in mixed infections with lambda (QSR)80. These results suggest the existence of a trans-acting function which inhibits phage growth in the absence of HimA or Hip/HimD function. It is likely that the rha gene either encodes that function or indirectly controls its action.
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PMID:A phi 80 function inhibitory for growth of lambdoid phage in him mutants of Escherichia coli deficient in integration host factor. I. Genetic analysis of the Rha phenotype. 315 85

Derivatives of phage lambda with the rightmost 3% of the genome (the QSR region) from the related phage phi 80 fail to grow at low temperatures (e.g., 32 degrees) in Escherichia coli hosts deficient in either protein component of IHF (integration host factor), the products of the himA and hip/himD genes. The abortive infection of lambda (QSR)80 in mutants defective for IHF was studied in detail. This infection is characterized by a lack of cell lysis and an inhibition of phage DNA replication after an initial period of normal synthesis. An inhibition of host DNA replication also occurs after a similar period of apparently normal synthesis, and the abortive lambda (QSR)80 infection is lethal to the host. An assay of beta-galactosidase activity in lambda (QSR)80-infected cells provided indirect evidence that RNA and protein synthesis continue late into the abortive infection. The defective growth is imposed by the product of the rha gene located in the (QSR)80 genetic material. Two-dimensional electrophoretic analysis of phage proteins produced in ultraviolet (uv)-irradiated phage-infected host cells has demonstrated the existence of a protein that is encoded or whose synthesis is regulated by the rha locus. Based on these findings, possible roles for a HimA-Hip/HimD-controlled rha product in a late stage of phi 80 development are discussed.
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PMID:A phi 80 function inhibitory for growth of lambdoid phage in him mutants of Escherichia coli deficient in integration host factor. II. Physiological analysis of the abortive infection. 315 86

The Escherichia coli HimD function (also known as Hip) is essential for Mu development (Miller and Friedman, 1977). We show that the role of HimD is to stimulate early transcription of Mu DNA, probably by acting as a subunit of integration host factor (IHF) and binding at a site located approx. 70 bp upstream from the start of the early transcription. HimD-independent phages were isolated. These mutant phages carry a promoter-up mutation in the Pribnow-box of the early promoter. Early Mu transcription is negatively regulated by the repressor (c gene product) and the Ner proteins. Mutants were isolated which are insensitive to the overproduction of Ner by multicopy plasmids, which normally inhibits Mu development. The mutations that map close to the startpoint of the early transcription reveal a structure which is presumably the Ner recognition site.
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PMID:Regulation of Mu transposition. I. Localization of the presumed recognition sites for HimD and Ner functions controlling bacteriophage Mu transcription. 609 23

Integration host factor (IHF) is a small heterodimeric DNA-binding protein of E coli composed of two subunits, alpha and beta, encoded by the himA and hip genes, respectively. IHF binds to DNA at a consensus sequence and bends DNA. HU protein, encoded by the hupA and hupB genes, is similar to IHF except that it does not bind to a specific DNA sequence. To investigate the protein determinants for IHF specificity we exchanged progressively longer segments from the C-terminus of Hip with those of HupA, and followed the activity in vivo and in vitro of four such IHF/HU hybrids. Replacement of 11 residues from the C-terminal alpha helix of Hip by the complementary eight residues of HupA (hybrid 1), had only minor effects on the DNA binding activity of the protein. As progressively longer segments of Hip were replaced by HupA, a precipitous decrease in IHF activity was observed. The hybrid with the longest substitution, hybrid 4, was totally inactive in vivo and could not be purified. None of the hybrid proteins could complement HU activity. Comparing the activities of hybrid 1, hybrid 2 and IHF point mutants, led us to conclude that the structural integrity of the C-terminal alpha helix and its spatial position, but not its amino acid sequence, are important for DNA binding specificity. We favor the hypothesis that alpha helices 3 of both IHF subunits interact with the body of IHF so as to anchor the arms. This interaction stabilizes the arms to permit DNA binding specificity. Thus the C-termini of IHF influence, in an indirect way, the recognition of specific sites on DNA.
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PMID:Genetic and biochemical analysis of IHF/HU hybrid proteins. 774 38

Integration host factor (IHF) is a small, heterodimeric DNA-binding protein of Escherichia coli composed of two subunits, alpha and beta, encoded by the himA and hip genes, respectively. IHF binds to the minor groove at a consensus sequence and bends DNA. We mutagenized the hip gene and studied the activity of the mutant IHF proteins in vivo and in vitro. Substitutions at the C-terminal alpha-helix (alpha-helix 3) reduced IHF activity and relaxed the specificity to DNA without abolishing the ability of IHF to bend DNA. These results indicate that the C-terminal region of Hip participates in determining IHF specificity. Alanine substitutions in beta-strands 2 and 3 generally had no effect on IHF activity in vivo suggesting that individually, many of these residues make only small contributions to the binding of IHF to DNA. Replacing the single amino acid of Hip that differs from HU in a highly conserved region of the arm did not affect IHF activity. This finding led us to conclude that this region of Hip does not contribute to specific DNA recognition by IHF. The binding of IHF to DNA is probably not restricted to one domain, but requires the co-operative participation of a number of regions of the protein.
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PMID:Genetic and biochemical analysis of the integration host factor of Escherichia coli. 851 42

Mutations in the diastrophic dysplasia sulfate transporter (DTDST) gene result in a family of skeletal dysplasias, which comprise lethal (achondrogenesis type 1B and atelosteogenesis type 2) and non-lethal conditions (diastrophic dysplasia and recessive multiple epiphyseal dysplasia (rMED)). The most frequent mutation is R279W, which in a homozygous state results in rMED with bilateral clubfoot, MED, and "double layered" patella. We describe three patients with rMED caused by a previously unreported homozygous mutation in the DTDST gene. The three patients (from two families) were born to healthy, non-consanguineous parents. All developed signs of hip dysplasia in early childhood and two had episodes of recurrent patella dislocation. Two underwent bilateral total hip replacements at ages 13 and 14 years. The feet, external ears, and palate were normal. Stature was normal in all cases. Radiographs showed dysplastic femoral heads, mild generalized epiphyseal dysplasia, abnormal patella ossification, and normal hands and feet. Direct sequence analysis of genomic DNA demonstrated a homozygous 1984T > A (C653S) change in the DTDST gene in all patients. The clinically normal parents were heterozygous for the change. This is the first description of a homozygous C653S mutation of the DTDST gene. Hip dysplasia and patella hypermobility dominates the otherwise mild phenotype. These patients further expand the range of causative mutations in the DTD skeletal dysplasia family.
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PMID:Autosomal recessive multiple epiphyseal dysplasia with homozygosity for C653S in the DTDST gene: double-layer patella as a reliable sign. 1296 18

Minor capsid protein L2 of papillomaviruses plays an essential role in virus assembly by recruiting viral components to PML bodies, the proposed sites of virus morphogenesis. We demonstrate here that the function of L2 in virus assembly requires the chaperone Hsc70. Hsc70 was found dispersed in naturally infected keratinocytes and cultured cells. A dramatic relocation of Hsc70 from the cytoplasm to PML bodies was induced in these cells by L2 expression. Hsc70-L2 complex formation was confirmed by coimmunoprecipitation. The complex was modulated by the cochaperones Hip and Bag-1, which stabilize and destabilize Hsc70-substrate complexes, respectively. Cytoplasmic depletion of Hsc70 caused retention of wild-type and N-terminally truncated L2, but not of C-terminally truncated L2, in the cytoplasm. This retention was partially reversed by overexpression of Hsc70 fused to green fluorescent protein but not by ATPase-negative Hsc70. Hsc70 associated with L1-L2 virus-like particles (VLPs) but not with VLPs composed either of L1 alone or of L1 and C-terminally truncated L2. Moreover, displacement of Hsc70 from L1-L2 VLPs by encapsidation of DNA, generating pseudovirions, was found. These data indicate that Hsc70 transiently associates with viral capsids during the integration of L2, possibly via the L2 C terminus. Completion of virus assembly results in displacement of Hsc70 from virions.
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PMID:Nuclear translocation of papillomavirus minor capsid protein L2 requires Hsc70. 1514 Sep 51

Plastid-targeted proteins pass through the cytosol as unfolded precursors. If proteins accumulate in the cytosol, they can form nonspecific aggregates that cause severe cellular damage. Here, we demonstrate that high levels of plastid precursors are degraded through the ubiquitin-proteasome system (UPS) in Arabidopsis thaliana cells. The cytosolic heat shock protein cognate 70-4 (Hsc70-4) and E3 ligase carboxy terminus of Hsc70-interacting protein (CHIP) were highly induced in plastid protein import2 plants, which had a T-DNA insertion at Toc159 and showed an albino phenotype and a severe defect in protein import into chloroplasts. Hsc70-4 and CHIP together mediated plastid precursor degradation when import-defective chloroplast-targeted reporter proteins were transiently expressed in protoplasts. Hsc70-4 recognized specific sequence motifs in transit peptides and thereby led to precursor degradation through the UPS. CHIP, which interacted with Hsc70-4, functioned as an E3 ligase in the Hsc70-4-mediated protein degradation. The physiological role of Hsc70-4 was confirmed by analyzing Hsc70-4 RNA interference plants in an hsc70-1 mutant background. Plants with lower Hsc70 levels exhibited abnormal embryogenesis, resulting in defective seedlings that displayed high levels of reactive oxygen species and monoubiquitinated Lhcb4 precursors. We propose that Hsc70-4 and CHIP mediate plastid-destined precursor degradation to prevent cytosolic precursor accumulation and thereby play a critical role in embryogenesis.
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PMID:Heat shock protein cognate 70-4 and an E3 ubiquitin ligase, CHIP, mediate plastid-destined precursor degradation through the ubiquitin-26S proteasome system in Arabidopsis. 2002 38

Zinc finger and BTB domain containing 38 (ZBTB38), binding to and repressing methylated DNA, is an important candidate gene for selection of body measurement traits through marker-assisted selection (MAS). The expression of ZBTB38 is regulated in human and animal height as well as other stature indexes. Genomic structural analysis shows that bovine ZBTB38 shares much similarity with human ZBTB38. We discovered and evaluated the potential association of the single nucleotide polymorphism (SNP) of the bovine ZBTB38 gene with body measurement traits in 722 individuals. The latest findings demonstrate that the A841G SNP in exon 1 is significantly associated with Body Length (BL), Hip Height (HH) and Heart Girth (HG). Furthermore, the analysis of A841G SNP marker shows that there are significant effects on the BL (P = 0.0389) in 722 individuals, significant effects on the HH (P = 0.0173) and HG (P = 0.0147) in Qinchuan improvement steers (QI) population, as well as significant effects on the WH (P = 0.0094) in Xuelong (XL) population. These results clearly suggest that the ZBTB38 gene is among of target genes for body measurement traits in bovine reproduction and breeding, and thus provide data for establishment of an animal model using cattle to study big animal body type.
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PMID:Molecular characterization, polymorphism of bovine ZBTB38 gene and association with body measurement traits in native Chinese cattle breeds. 2023 51


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