UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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An unlinked regulatory mutation hisT1504, causes an approximate 11-fold derepression of the histidine (his) operon and a linked constitutive mutation hisO1242 causes an approximate 15-fold derepression. In this study we demonstrate that hisT1504 provokes a significant increase in the UV-induced reversion frequency of his ochre and frameshift mutations. Analysis of revertants derived from frameshift mutants show that this increment in derepressed strains compared to the repressed strains is due to better growth of suppressed revertants by weak frameshift suppressors. The frequency of revertants suppressed by strong frameshift suppressors appears to be the same in repressed and derepressed strains. In contrast, intragenic revertants appear at two-fold decreased frequency in derepressed strains carrying either of the histidine constitutive mutations, hisT1504 or hisO1242. A possible competition is indicated between frequently transcribing RNA polymerase and error-promoting recombinational repair within the histidine operon.
Mol Gen Genet 1975
PMID:UV-induced reversion patterns of constitutive and repressed Salmonella histidine auxotrophs. 110 13

50-S ribosomal subunits from the extreme halophilic bacterium, Halobacterium cutirubrum, contain an alanine-rich acidic "A" protein which resembles the L7--L12 multimer (Kaltschmidt and Wittmann, 1970) found in the 50-S ribosomal subunit of Escherichia coli cells. The protein contains 24 mole % alanine and is devoid of histidine, tryptophan and cysteine. Unlike E. coli which has two forms of the "A" protein distinguished solely by the acetylation state of the serine amino terminus. H. cutirubrum 50-S subunits contain only one unsubstituted form of the "A" protein in vivo. However, during purification of ribosomes from cells grown between 25 and 37 degrees C the latter "A" protein undergoes rapid, specific, in vitro enzymatic alteration at its carboxy-terminal end. When the halophile is grown in the temperature range of 40 to 42 degrees C the cleaving enzyme is not active and only one form of the "A" protein is found on the ribosomes.
Mol Gen Genet 1975 Sep 15
PMID:Temperature related alterations in the acidic alanine-rich "A" protein from the 50S ribosomal particle of the extreme halophile, Halobacterium cutirubrum. 110 49

The presence of histamine receptors on lymphocyte membranes was investigated using conjugates of histamine and macromolecules tritiated or iodinated with I-125. Histamine-RSA conjugate binds to lymphocytes and causes patching and capping of the bound conjugate. It was found, however, that free histamine did not inhibit the binding of histamine-rabbit serum albumin to mouse lymphocytes, nor did His-RSA interfere with the binding of free histamine. In addition conjugates between RSA and other small molecules, such as ethylamine, ethanolamine, tyramine and glycine, were found to bind to the same sites on lymphocyte membrane as did His-RSA. Ethylamine-RSA like His-RSA when coupled to Sepharose, was capable of removing antibody producing cells from spleen cells of mice immunized against sheep red blood cells. In addition, when spleen cells from such immunized mice were passed through ethylamine or histamine-RSA-Sepharose and the unbound cells were subsequently injected into X-irradiated mice, a 1.8 fold increase in the immunological response was noted. We conclude that the selective binding to lymphocytes of the various ligand-macromolecular conjugates may be due to some general properties of the cell membrane and not to any specific receptors. Nevertheless, these conjugates can be used as a tool to remove selectively antibody producing cells as well as some regulatory cells.
Mol Cell Biochem 1975 May 30
PMID:Binding of histamine- and other ligand-conjugated macromolecules to lymphocytes. 114 85

The structure of octylcarbamoyl-alpha-chymotrypsin to a resolution of 3.0 A is described. The n-octyl side chain of the active site directed irreversible inactivator octyl isocyanate is bound exclusively in the hydrophobic substrate binding pocket. The n-octyl isocyanate forms a planar urethane bond with the Ser-195 Ogamma and extends approximately 1 A deeper into the hydrophobic pocket than the indolyl group of indoleacryloyl-alpha-chymotrypsin (Henderson, R. (1970), J. Mol. Biol. 54, 341). All the structural changes are essentially identical with those observed in indoleacryloyl-alpha-chymotrypsin including the observation of a hydrogen bonded water molecule between the carbonyl oxygen of the octylcarbamoyl group and the imidazole group of His-57. The observed mode of n-octyl alkyl binding to chymotrypsin is consistent with the hypothesis proposed earlier (Brown, W. E. and Wold, F. (1973), Biochemistry 12, 828).
...
PMID:Alkyl isocyanates as active site-specific reagents for serine proteases. Location of alkyl binding site in chymotrypsin by X-ray diffraction. 119 30

A hypothesis about the evolution of the haem-haem interaction in haemoglobins has been formulated on the basis of available functional and structural data. It emerges that this cooperative muchanism is not necessarily due solely to the higher levels of protomer aggregation, because it occurs only in haemoglobins having the distal histidine. It is thus proposed that this amino acid residue might have had a significant role for the development of low-oxygen-affinity haemoglobins in vertebrates.
J Mol Evol 1975 Nov 04
PMID:Evolution of the haem-haem interaction in vertebrate haemoglobins - a hypothesis. 120 26

A model is proposed for the structure of stereospecific sites in regulatory proteins. On its basis a possible code is suggested that governs the binding of regulatory proteins at specific control sites on DNA. Stereospecific sites of regulatory proteins are assumed to contain pairs of antiparallel polypeptide chain segments which form a right-hand twisted antiparallel beta-sheet, with single-stranded regions at the ends of the beta-structure. The model predicts that binding reaction between a regulatory protein and double-helical DNA is a cooperative phenomenon and is accompanied by significant structural alteration at the stereospecific site of the protein. Half of hydrogen bonds normally existing in beta-structure are broken upon complex formation with DNA and a new set of hydrogen bonds is formed between polypeptide amide groups and DNA base pairs. In a stereospecific site, one chain (t-chain) is attached through hydrogen bonds to the carbonyl oxygens of pyramides and N3 adenines lying in one DNA strand, while the second polypeptide chain (g chain) is hydrogen bonded to the 2-amino groups of guanine residues lying in the opposite DNA strand. The amide groups serve as specific reaction sites being hydrogen bond acceptors in g-chain and hydrogen bond donors in t-chain. The single-stranded portions of t- and g-chains lying in neighbouring subunits of regulatory protein interact with each other forming deformed beta-sheets. The recognition of regulatory sequences by proteins is based on the structural complementarity between stereospecific sites of regulatory proteins and base pairs sequences at the control sites. An essential feature of these sequences is the asymmetrical distribution of guanine residues between the two DNA strands. The code predicts that there are six fundamental amino acid residues (serine, threonine, asparagine, histidine, glutamine and cysteine) whose sequence in stereospecific site determines the base pair sequence to which a given regulatory protein would bind preferentially. The code states a correspondence between four amino acid residues at the stereospecific site of regulatory protein with the two residues being in t- and g-segments, respectively, and AT(GC) base pair at the control site. It is thus possible to determine which amino acid residues in the repressor and which base pairs in the operator DNA are involved in specific interactions with each other, as exemplified by lac repressor binding to lac operator.
Mol Biol (Mosk)
PMID:[A code governing specific binding of regulatory proteins to DNA and structure of stereospecific sites of regulatory proteins]. 121 4

The physico-chemical properties have been studied of RNase A selectively modified at the E-NH2-group of Lys-7 and Lys-41 with pyridoxal-P. Modification did not affect conformational stability of the protein globule, thus all changes in the molecule of the modified RNase A were localised around the alkylated Lys residue. In the both cases pyridoxyl-P. The residue was shown to be localized in the active site region of the (P-Pxy)-Lys-7-RNase A and its chromophore parts was highly exposed to the solvent. (P-Pxy) E-Lys-7-RNase A and its chromophore parts was highly exposed to the solvent. In the Lys-41 derivative, pyridoxamine-P was situated exactly in the active site and is partially hidden in the protein grobule. The pH-dependence of absorption spectra indicates that the chromophore of pyridoxyl-P in modified proteins is quite sensible to the ionic state of its surrounding. The usefulness of pyridoxyl-P as a reporter group was proved in the study with (P-Pxy)-Lys-7-RNase A. Some conformational changes involving His-119 were shown to take place in the course of the enzyme-nucleotide complex formation.
Mol Biol (Mosk)
PMID:[Physico-chemical properties of ribonuclease A modified with pyridoxal-5'-phosphate]. 121 71

A possible code is suggested that describes a correspondence between amino acid sequences in stereospecific sites of regulatory proteins and nucleotide sequences at the control sites on DNA. Stereospecific sites of regulatory proteins are assumed to contain pairs of antiparallel polypeptide chain segments which form a right-hand twisted antiparallel beta-sheet with single-stranded regions at the ends of the beta-structure. The binding reaction between regulatory protein and double-helical DNA is accompanied by significant structural alterations at stereospecific sites of the protein and DNA. Half of the hydrogen bonds normally existing in beta-structure are broken upon complex formation with DNA and a new set of hydrogen bonds is formed between polypeptide amide groups and DNA base pairs. The code states a correspondence between four amino acid residues at a stereospecific site of the regulatory protein and an AT (GC) base pair at the control site. It predicts that there are six fundamental amino acid residues (serine, threonine, histidine, asparagine, glutamine and cysteine) whose arrangement in the stereospecific site determines the base pair sequence to which a given regulatory protein would bind preferentially.
Mol Biol Rep 1976 Apr
PMID:A code controlling specific binding of regulatory proteins to DNA. 127 65

The production and secretion of multiple peptide hormones and tyrosine hydroxylase by the human neuroblastoma cell line NB-1 and the effects of dibutyryl cAMP (Bt2cAMP) and phorbol esters such as 12-O-tetradecanoyl-phorbol-13-acetate (TPA) on them were investigated. The presence of messenger RNAs (mRNAs) of vasoactive intestinal peptide (VIP)/peptide histidine methionine (PHM), preprotachykinin, and tyrosine hydroxylase was detectable in the cytoplasm of cultured NB-1 cells by in situ hybridization. Treatment with Bt2cAMP and TPA markedly increased the number of cells immunoreactive to VIP, PHM, neuropeptide Y, Met-enkephalin, substance P and tyrosine hydroxylase and also the contents of VIP and Met-enkephalin in the culture medium. Bt2cAMP and TPA induced morphological changes characteristic of endocrine differentiation, such as an increase in neuroendocrine granules and the development of rough endoplasmic reticulum and Golgi apparatus. The results indicated that treatment with Bt2cAMP and TPA induces the expression of multiple genes of peptide hormone and tyrosine hydroxylase and increases hormone production and secretion through morphological changes into endocrine cells.
Virchows Arch B Cell Pathol Incl Mol Pathol 1992
PMID:Detection of multiple hormones and their mRNAs in human neuroblastoma cell line NB-1 using in situ hybridization, immunocytochemistry and radioimmunoassay. 127 91

A novel member of the zinc finger superfamily was cloned by virtue of its binding to cis-regulatory elements of a glia-specific gene, the myelin proteolipid protein (PLP) gene. Named MyTI (myelin transcription factor I), this gene is most highly transcribed in the developing nervous system, where expression precedes induction of its presumptive target, PLP. Low levels of MyTI transcripts can be detected in nonneural tissues only by polymerase chain reaction analysis. Zinc is a necessary cofactor for DNA binding of MyTI, as the zinc-chelating agent 1,10-orthophenanthroline eliminates binding activity. Zinc may stabilize the DNA-binding domain of MyTI by coordinating three cysteine and one histidine residue in a Cys-X5-Cys-X12-His-X4-Cys (C2-HC) arrangement. The MyTI protein has six fingers of the C2-HC class arranged in two widely separated clusters. These two domains of DNA binding can function independently and recognize the same DNA sequence, suggesting that MyTI may contribute to the higher-order structure of a target promoter by simultaneously binding both proximal and distal sites. The six fingers are highly conserved, suggesting that they arose from successive duplication events, while the linker regions diverge in size and sequence. Both amino acid sequence comparisons and secondary-structure predictions indicate that the C2-HC fingers of MyTI do not resemble the zinc-mediated loops of C2-H2 fingers, C2-C2 fingers, or Cx clusters. MyTI may therefore be the prototype of a new structural family of zinc-stabilized DNA binding proteins.
Mol Cell Biol 1992 Dec
PMID:Novel member of the zinc finger superfamily: A C2-HC finger that recognizes a glia-specific gene. 128 Mar 25

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