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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Using a monoclonal antibody to a DNA-binding site of calf RNA polymerase II, we found that this site occurs on the largest subunit and is structurally similar in RNA polymerase II of widely divergent eukaryotes. In immuno-blotting of electrophoretically separated subunits, the monoclonal antibody recognized a determinant on the largest polypeptide of all RNA eukaryotic polymerase II forms tested, with a preference for the IIA enzyme subunit of 215 X 10(3) Mr over the partially proteolyzed 180 X 10(3) Mr form. This site is conserved on human, chicken, Drosophila, wheat germ and yeast RNA polymerase II, all of which reacted strongly with the monoclonal antibody. These results contrasted with those obtained with polyclonal antibodies to non-functional determinants of the calf enzyme. The reactivity of the polyclonal antibody with eukaryotic RNA polymerase II steadily decreased with increasing evolutionary distance from the original antigen; the yeast enzyme showed no cross-reactivity. These results suggest that a basic functional feature of eukaryotic RNA polymerase II has been strongly conserved and support the view that divergence of RNA polymerase II has taken place mainly in other, perhaps regulatory, sites of the enzyme.
J Mol Biol 1983 Nov 05
PMID:Conservation of a DNA-binding site in the largest subunit of eukaryotic RNA polymerase II. 619 48

A coat-protein-free mutant of tobacco mosaic virus as well as mutants with a non-functional coat protein were found to interfere with the establishment and spread of challenging strains of TMV. The results do not support an earlier concept, according to which the genome of a related challenging virus could be captured by the coat protein of the virus introduced in advance. The presence of a viral coat protein is obviously not essential and a competition among the viral genomes for some specific site seems to be a more likely mechanism of cross protection.
Mol Gen Genet 1981
PMID:A proteinless mutant of tobacco mosaic virus: evidence against the role of a viral coat protein for interference. 695 Jan 93

Extracellular information is transduced by transmembrane receptors into the inside of the cell across a membrane barrier. To understand the molecular basis of transmembrane signalling, we replaced the transmembrane segment 2 (TM2) of the Escherichia coli aspartate receptor, Tar, with random sequences that are 21 amino acid residues in length and consist of Arg, Gly, Ser, Cys, Val, Leu, Ile and Phe at each position. From this ensemble for recombinant molecules, functional receptors were recovered as clones that could bind aspartate and transmit a signal to the intracellular domain. Restricted average hydrophobicity values were observed for functional transmembrane domains, and support the observation that transmembrane segments typically have hydrophobicity values greater than 1.6. However, non-functional transmembrane domains with greater hydrophobicity than 1.6 indicate that hydrophobicity is not a sole determinant for its function. Fourier transform analysis of the functional TM2 sequences suggests that the transmembrane segment has an alpha-helical structure with three distinct faces. Cross-linking of the faces to transmembrane segment 1 (TM1) mimics the "locked" signalling phenotypes of the wild-type receptor. The results are consistent with a model in which TM2 rotates in the plane of the lipid bilayer, and the rotation becomes locked at one face of the alpha-helix in the presence of attractant and at another face in the presence of repellent. This dynamic movement of the transmembrane domain may be a common signalling mechanism of homologous membrane receptor molecules such as the insulin receptor. Random-cassette mutagenesis and disulfide cross-linking provide powerful strategies for examining the structure and function of transmembrane segments.
J Mol Biol 1995 Nov 03
PMID:A model for transmembrane signalling by the aspartate receptor based on random-cassette mutagenesis and site-directed disulfide cross-linking. 747 32

Proteins, like DNA, are subject to various forms of damage that can render them non-functional. Conformational changes and covalent chemical alterations occur spontaneously, and the rates of these reactions can be increased by environmental stresses such as heat, oxidative agents, or changes in pH or osmotic conditions. Although affected proteins can be replaced by de novo biosynthesis, cells--especially those subjected to stress or nutrient limitation--have developed mechanisms which can either restore damaged polypeptides to an active state or remove them. Such mechanisms can spare the biosynthetic capacity of the cell and ensure that the presence of non-functional molecules does not disrupt cell physiology. Three major mechanisms, which operate in bacteria as well as eukaryotic organisms, have been described. First, chaperones not only assist in proper de novo folding of proteins but also provide an important means of restoring activity to conformationally damaged proteins. Second, enzymatic 'repair' systems exist to directly reverse certain forms of protein damage, including proline isomerization, methionine oxidation and the formation of isoaspartyl residues. Finally, proteolysis provides a 'last-resort' means of dealing with abnormal proteins which cannot be repaired. Protein maintenance and repair may be of special importance for bacteria preparing to survive extended periods in stationary phase: both constitutive and induced mechanisms are utilized to permit survival despite greatly reduced protein synthesis.
Mol Microbiol 1995 Jun
PMID:Repair, refold, recycle: how bacteria can deal with spontaneous and environmental damage to proteins. 747 82

Using fusions between the Escherichia coli genes argI and lacZ, it has been demonstrated that ribosomal frameshifting occurs at a frequency of between 3% and 16% within the argI mRNA, soon after the initiation codon. The frameshift involves a phenylalanyl-tRNA shifting into the +1 frame at the sequence UUU-U/C. The shift does not occur if the in-frame phenylalanine codon UUU is replaced by UUC. The level of frameshifting is higher in dense cultures and is not dependent on phenylalanine starvation. In the wild-type argI gene this frameshifting event would be an error, leading to a truncated, non-functional protein. Therefore, it is unlike the numerous examples of required frameshifting events that have been described in other genes.
Mol Gen Genet 1994 May 25
PMID:A ribosomal frameshifting error during translation of the argI mRNA of Escherichia coli. 751 62

In the present study, the polymerase chain reaction was used initially to demonstrate the presence of mariner sequences in seven species/subspecies of tsetse flies. DNA hybridization experiments show mariner sequences to be dispersed within the tsetse genome and that there are large variations in copy numbers among the various taxa. A genomic library was used to isolate and characterize a full-length mariner element from G. p. palpalis. The results indicate that this element is 1257 bp in length, flanked by two 32 bp inverted repeats differing at only one position, and belongs to the mellifera subfamily. The nucleotide sequence that is translated into a reading frame of 337 amino acids requires the introduction of two frame shifts and one stop codon to maximize sequence homology with a mariner element from Drosophila erecta. Based on this evidence, we conclude that the G. p. palpalis mariner element clearly represents a non-functional transposable element and that the protein product is not an active transposase.
Insect Mol Biol 1995 May
PMID:Identification of a mariner element from the tsetse fly, Glossina palpalis palpalis. 755 Nov 97

We describe a genetic analysis of the vitamin B12 receptor of Escherichia coli. Through the use of informational suppression, we have been able to generate a family of receptor variants, each identical save for a single, known substitution (Ser, Gln, Lys, Tyr, Leu, Cys, Phe) at a known site. We have studied 22 different mutants, 14 in detail, distributed throughout the length of the btuB gene. Most amino acid substitutions have a pleiotropic effect with respect to all ligands tested, the two colicins E1 and E3, the T5-like bacteriophage BF23, and vitamin B12. (The dramatic effect of a single amino acid substitution is also well exemplified by the G142A missense change which renders the receptor completely non-functional.) In some instances, however, we have been able to modify a subset of receptor functions (viz. Q62, Q150 and Q299 and the response to phage BF23). These data are summarized on a two-dimensional folding model for the BtuB protein in the outer membrane (devised using both amphipathic beta-strand analysis and sequence conservation amongst the TonB-dependent receptors). In addition, we report that the extreme C-terminus of BtuB is vital for receptor localization and provide evidence for it being a membrane-spanning beta-sheet with residue L588 situated on its hydrophobic surface. Two of the C-terminal btuB mutations are located within the region of overlap with the recently identified dga (murl) gene.
Mol Microbiol 1995 Jan
PMID:Structure-function analysis of the vitamin B12 receptor of Escherichia coli by means of informational suppression. 774 57

The filamentous phage protein pIV is required for assembly and secretion of the virus and possesses regions homologous to those found in a number of Gram-negative bacterial proteins that are essential components of a widely distributed extracellular protein-export system. These proteins form multimers that may constitute an outer membrane channel that allows phage/protein egress. Three sets of f1 gene IV mutants were isolated at positions that are absolutely (G355 and P375) or largely (F381) conserved amongst the 16 currently known family members. The G355 mutants were non-functional, interfered with assembly of pIV+ phage, and made Escherichia coli highly sensitive to deoxycholate. The P375 mutants were non-functional and defective in multimerization. Many of the F381 mutants retained substantial function, and even those in which charged residues had been introduced supported some phage assembly. Some inferences about the roles of these conserved amino acids are made from the mutant phenotypes.
Mol Microbiol 1994 Oct
PMID:Mutants at conserved positions in gene IV, a gene required for assembly and secretion of filamentous phages. 783 May 79

We have identified the seven genes that constitute the A43 mating-type factor of Coprinus cinereus and compare the organisation of A43 with the previously characterised A42 factor. In both, the genes that trigger clamp cell development, the so-called specificity genes, are separated into alpha and beta loci by 7 kb of noncoding sequence and are flanked by homologous genes alpha-fg and beta-fg. The specificity genes are known to encode two classes of dissimilar homeodomain (HD1 and HD2) proteins and have different allelic forms which show little or no cross-hybridisation. By partial sequencing we identified a divergently transcribed HD1 (a1-2) and HD2 (a2-2) gene in the A43 alpha locus. a2-2 failed to elicit clamp cell development in three different hosts, suggesting that it is non-functional. a1-2 elicited clamp cells in an A42 host that has only an HD2 gene (a2-1) in its alpha locus, thus demonstrating that the compatible A alpha mating interaction is between an HD1 and an HD2 protein. The A43 beta locus contains three specificity genes, the divergently transcribed HD1 and HD2 genes b1-2 and b2-2 and a third HD1 gene (d1-1) that was shown by hybridisation and transformation analyses to be functionally equivalent to d1-1 in A42. An untranscribed footprint of a third A42 HD1 gene, c1-1, was detected between the A43 b2-2 and d1-1 genes by Southern hybridisation.
Mol Gen Genet 1994 Oct 17
PMID:A mating-type factors of Coprinus cinereus have variable numbers of specificity genes encoding two classes of homeodomain proteins. 784 58

We report a null mutation in the first exon of the human dopamine D4 receptor (DRD4) gene. The mutation is predicted to result in a truncated non-functional protein and is the first natural nonsense mutation found in a human dopamine receptor gene. It occurs with a frequency of about 2% in the general population. The distribution of the mutation was found to be similar in healthy controls and patients suffering from psychiatric diseases which included schizophrenia, bipolar affective disorder and Tourette's syndrome, indicating that heterozygosity for this mutation in the DRD4 gene is not causally related to major psychiatric diseases. We also identified an adult male who is homozygous for this mutation. He shows no symptoms of major psychiatric illness, but he displays somatic ailments including acousticous neurinoma, obesity and some disturbances of the autonomic nervous system. Some of these symptoms might be related to the absence of functional DRD4 protein.
Hum Mol Genet 1994 Dec
PMID:Human dopamine D4 receptor gene: frequent occurrence of a null allele and observation of homozygosity. 788 21


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