Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An E. coli mutant rpoA109 unable to support the growth of phage P2 produces DNA-dependent RNA polymerase with an altered alpha subunit. Histidine is substituted for leucine in one tryptic peptide from the mutant alpha subunit. The existence of only one rpoA gene within the E. coli chromosome is indicated.
Mol Gen Genet 1976 Apr 23
PMID:Identification of a mutation within the structural gene for the a subunit of DNA-dependent RNA polymerase of E. coli. 77 6

Ceruloplasmin, the blue copper-protein of vertebrate plasma, has been reviewed mainly from a functional point of view. However we have surveyed the chemistry and state copper in the molecule because of the implications of the recent data of Ryden (13,28). His observations suggest that unless special precautions are taken in the isolation of ceruloplasmin degradation, probably proteolytic, produces fragments of various sizes. When isolated, these fragments appear to be held together by noncovalent interactions. Comparison of their catalytic and spectral properties reveals no significant differences from a single homogeneous species of molecular weight of 134,000 isolated by Ryden's methods. On the other hand, the homogeneous molecule may differ in properties highly sensitive to conformation and three-dimensional parameters. Three types of copper atoms have been identified in ceruloplasmin, but their amino acid environment is still unknown. Ceruloplasmin possesses significant oxidase activity towards Fe(II) and numerous aromatic amines and phenols. Its ferroxidase activity has led to the discovery that it is a molecular link between copper and iron metabolism. Ceruloplasmin mobilizes iron into the plasma from iron storage cells in the liver. An equally important duty is that ceruloplasmin, after its rapid biosynthesis in the liver, serves as a major copper transport vehicle, comparable to transferrin. Evidence is accumulating that the copper atoms of ceruloplasmin are a prerequisite for copper utilization in the biosynthesis of cytochrome oxidase and other copper proteins. The ability of ceruloplasmin to release copper at specific cellular sites may be related to its broad substrate spectrum of biological reducing agents. A possible third role of ceruloplasmin is as a contributor to the regulation of the balance of biogenic amines through its oxidase action on the epinephrine and the hydroxyindole series. Thus ceruloplasmin is a copper-protein with several important functions, all of which are directly related to its oxidase activity.
Adv Enzymol Relat Areas Mol Biol 1976
PMID:Ceruloplasmin: the copper transport protein with essential oxidase activity. 77 38

The reversible reaction catalyzed by ATP phosphoribosyltransferase favors the pyrophosphorolysis of phosphoribosyl-ATP (PR-ATP). The enzyme is inhibited by PR-ATP. To avoid this problem and measure with confidence initial rates of the transferase, we have purified more than one hundred fold the enzyme PR-ATP pyrophosphohydrolase, which irreversibly converts PR-ATP to PR-AMP. Using this coupled assay, we report on substrate kinetics and histidine inhibition studies of ATP phosphoribosyltransferase of Escherichia coli. 1. In the absence of histidine the variation of initial velocity as a function of ATP or phosphoribosyl pyrophosphate (PRPP) concentration, follows Michaelis-Menten kinetics, with ATP inhibiting at high concentrations. In the presence of histidine a change from hyperbolic to sigmoidal kinetics is observed. 2. Apparently AMP acts as a competitive inhibitor of ATP. 3. The bisubstrate kinetics gives a pattern of parallel lines, suggesting a double displacement mechanism. 4. The inhibition by histidine appears not to be cooperative or perhaps slightly negatively cooperative.
Mol Cell Biochem 1976 Jun 15
PMID:Kinetic properties of ATP phosphoribosyltransferase of Escherichia coli. 78 21

The ability of eighteen analogs of LH-RH to inhibit LH-RH-induced LH release was tested in primary cultures of rat anterior pituitary cells. [Des-His2]LH-RH, [Des-His2, D-Leu6]LH-RH and [Des-His2, D-Phe6]LH-RH inhibited 50% of LH-RH-induced LH release at molar ratios (MR50S) of 3000, 500 and 60, respectively, while [D-Phe2]LH-RH, [D-Phe2, D-Leu6]LH-RH and [D-Phe2, D-Phe6]LH-RH had similar effects at MR50S of 1000, 150 and 25, respectively. This indicates that substitution of D-phenylalanine for histidine at position 2 of LH-RH leads to compounds approximately 3-fold more potent than the corresponding [Des-His2]-analogs. [D-Phe2, D-Phe6]LH-RH, the most potent antagonist tested has however a slight agonistic activity (0.003% that of LH-RH itself). [D-Phe2, D-Phe6, Phe7]LH-RH, [D-Phe2, Phe3, D-Phe6]-LH-RH and [D-Phe2, Phe5, D-Phe6]LH-RH inhibit 50% of LH-RH action at MR50S of 400, 100 and 75, respectively. All of the analogs mentioned in the last group have LH-releasing activities below 1/100,000 that of LH-RH itself.
Mol Cell Endocrinol
PMID:Antagonistic activity of analogs of luteinizing hormone-releasing hormone (LH-RH) in vitro. 78 58

Escherichia coli K12 Hfr H Tsxs Strs and F- Pro- Tsxr His- Arg- Strr bacteria were conjugated in the absence of arginine with or without glucose. The efficiency of conjugation, measured by the frequency of Pro+ and His+ recombinants was not affected. Arginine starvation alone did not affect the tsxs gene expression which occurred in all the zygotes which had received the gene. In contrast, argine and glucose starvation allows tsxs expression only in those zygotes in which the donor gene had been integrated in the genome. As the glucose starvation brings on a destabilization of the messenger RNA synthesized by the F- cells in absence of arginine, the results can be interpreted as follows: the transferred tsxs genes are transitorily expressed in all the zygotes at the unintegrated state. After this transient period, only thsoe genes integrated in the chromosomes of the zygotes continue to be expressed.
Mol Gen Genet 1976 Aug 10
PMID:Effect of glucose starvation on the expression of transferred tsx genes in Escherichia coli K12 zygotes. 78 25

The mammalian epidermis is organized into layers of structurally different cells--the basal, spinous, granular and cornified layers--which represent steps in the differentiative process that terminates in cornification and desquamation. Investigation of the molecular mechanisms that control this ordered sequence of events provides clues to the etiology of certain epidermal pathologies. DNA synthesis and mitosis are normally restricted to the basal layer. Several substances have been implicated in the mitotic control of epidermal cells, the loss of mitotic activity being the first major step in normal keratinization. Investigations performed in this laboratory indicate that isolated differentiated nuclei can replicate their DNA which they are inhibited from doing in situ. Addition of a high speed supernate from homogenized differentiated cells inhibited this synthetic activity in vitro suggesting the existence of a cytoplasmic inhibitor of DNA synthesis. It is not known whether mitotic inhibition in differentiated epidermal cells is a function of the inhibition of DNA replication. Contrary to previous assumptions, recent experimental evidence clearly indicates that, unlike DNA synthesis, RNA synthesis occurs in differentiated cells. Correlated with this synthetic activity is the observation that a protein rich in histidine is specifically formed in the granular cells. This protein appears to be a component of the keratohyalin granules which fill the cells of the granular layer. Investigations were conducted in this laboratory to determine whether control of the synthesis of this protein occurs at the level of translation or transcription. Translation, in vitro, of mRNA obtained from isolated populations of each epidermal cell type suggested that control of protein synthesis in the differentiating epidermis is transcriptional, i.e. only in the granular cell is there an mRNA for the histidine-rich protein. Transcription, in vitro, of chormatin isolated from the separated cell populations produced RNA with a ratio of cytidine to uracil consistent with the predicted mRNA for this protein thus providing additional support for the hypothesis that epidermal differentiation is controlled at the level of 'gene-readout'.
Mol Cell Biochem 1976 Sep 30
PMID:Molecular aspects of control in epidermal differentiation. 79 Jan 61

Holo and apoenzyme of aspartate aminotransferase from beef kidney are 80% inactivated by photoxidation in the presence of 2 X 10(-6) M tetraiodofluroescein with the modification of two histidine residues per enzyme protomer. At a higher concentration (1 X 10(-5) M) a tyrosine residue is also modified. The keto substrates, ketoglutarate and oxalacetate, protect the enzyme from photoxidation. Diethylpyrocarbonate modifies three histidine residues per enzyme protomer and reduces the activity only 10%. These results suggest that the two histidine residues photoxidized through the sensitizer, are located in the active site of the enzyme, at least one of these appears to be involved in ketosubstrate binding. The other three histidines modified by diethylpyrocarbonate are likely located on the enzyme surface and are not involved in the catalytic activity of the enzyme.
Mol Cell Biochem 1976 Jun 15
PMID:Chemical modifications of histidine residues in cytoplasmic asparate aminotransferase from beef kidney. 94 May 48

An improved 2.5-A electron density map of chymotrypsinogen was calculated by incorporating heavy-atom anomalous scattering effects and a new model of the molecule was constructed. Phases from x-ray structure factors (R = 0.43) computed from this model were then used in the calculation of another electron density map against which the model was further refined. The catalytic Ser-195 side chain in the new model is in the "down" or "acyl" orientation and its Ogamma atom is in position to form a normal hydrogen bond with Nepsilon2 of His-57. In contrast, the corresponding hydrogen bond in alpha-chymotrypsin (Birktoft, J.J., and Blow, D.M. (1972), J.Mol. Biol. 68, 187) is severely distorted, probably as a consequence of a 1.5-A shift in the relative positions of the two cylindrical folding domains composing most of the molecule. We suggest that this activiation induced distortion of the charge-relay, hydrogen-bonding system plays an important role in the genesis of enzymic activity, in accord with an earlier proposal by Wang concerning the role of bent hydrogen bonds in enzyme catalysis (Wang, J.J. (1970), Proc. Natl. Acad. Sci. U.S.A. 66, 874).
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PMID:A detailed structural comparison between the charge relay system in chymotrypsinogen and in alpha-chymotrypsin. 97 71

The deuteration of the tryptophan residues of hen egg white lysozyme, bovine alpha-lactalbumin and bovine beta-lactoglobulin in d-TFA has been studied by PMR spectroscopy. It is found that short times of exposure to d-TFA allow selective deuteration at the C-2 position with only a small amount of deuteration at the C-5 position, as expected from studies on model peptides described in the previous paper. The proteins studied essentially regained their native structures after the treatment, except for broadening and shifting of the histidine resonances in the case of alpha-lactalbumin. Selective deuteration at the tryptophan C-2 position was readily observed by difference spectroscopy of the denatured protein, but PMR difference spectra of the same proteins in benign solvents did not contain resonances from all of the exchanged protons. Some resonances would not be observed because of line broadening, which causes the resonances to fall below the limit of sensitivity of detection at 100 MHz. Deuteration by brief exposure to d-TFA should be useful for the identification of tryptophan resonances in the PMR spectra of native proteins. The deuteration of all the aromatic protons of tryptophan residues in proteins by immersion in d-TFA for 4 hours at room temperature was studied. This technique is unlikely to be of general use for the simplification of the aromatic region of the PMR spectra of native proteins because of the degradation of tryptophan residues which results from the acid treatment.
Mol Cell Biochem 1976 Nov 30
PMID:Proton magnetic resonance spectroscopic studies of proteins containing deuterated tryptophan residues. 100 98

1. Two women with severe hypokalaemic alkalosis were investigated by means of muscle biopsy before and at the end of 2 and 3 weeks respectively of intense therapy with potassium chloride. 2. The muscle biopsy material was analysed for water, electrolytes, adenine nucleotides, phosphocreatine, free creatine, pyruvate, lactate, glycogen and free amino acids. The extra- and intra-cellular distribution of water, electrolytes and amino acids was calculated by the chloride method. 3. Both patients showed a marked loss of intracellular potassium and an increase in intracellular sodium concentration. The muscle magnesium content was also slightly decreased. After repletion with potassium chloride, muscle sodium and potassium became normal. 4. The contents of creatine phosphate, ATP, ADP, AMP, lactate and pyruvate were within normal limits, but the phosphocreatine/total creatine ratio was reduced. After repletion, a small change in the apparent creatine-phosphokinase equilibrium had occurred, suggesting a minor increase in intracellular pH. 5. The concentrations of the basic amino acids, lysine, arginine and ornithine were increased far above normal. The intracellular accumulation of arginine was much higher than the increase in lysine concentration and histidine concentration was normal. This differs from findings in potassium-depleted rats, where the intracellular lysine concentration is much higher than arginine concentration and histidine is high as well. After potassium repletion the intracellular concentration of ornithine, lysine and arginine became normal in one case and decreased considerable in the other. An increased intracellular concentration of glutamate and glutamine was also observed after potassium repletion.
Clin Sci Mol Med 1976 Dec
PMID:Influence of severe potassium depletion and subsequent repletion with potassium on muscle electrolytes, metabolites and amino acids in man. 107 Apr 23


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