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Query: UNIPROT:P06889 (Mol)
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We have recently demonstrated that short internal exons in pre-mRNA transcripts with three exons and two introns are ignored by splicing machinery in vitro and in vivo, resulting in exon skipping. Exon skipping is reversed when the pyrimidine content of the polypyrimidine tract in the upstream intron is increased (Z. Dominski and R. Kole, Mol. Cell. Biol. 11:6075-6083, 1991). Here we show that skipping of the short internal exon can be partially reversed by mutations which modify the upstream branch point sequence of the 5' splice site at the end of the exon to their respective consensus sequences. When the modified elements are combined with one another in the same pre-mRNA, exon skipping is fully reversed. Full reversion of exon skipping is also observed when these elements are combined individually with the upstream polypyrimidine tract strengthened by three purine-to-pyrimidine mutations. The observed patterns of splice site selection are similar in vitro (in nuclear extracts from HeLa cells) and in vivo (in transfected HeLa cells). We also show that the length of the downstream intron plays a role in splice site selection. Our data indicate that the interplay between the sequence elements in pre-mRNA controls the outcome of each splicing event, providing the means for very subtle regulation of alternative splicing.
Mol Cell Biol 1992 May
PMID:Cooperation of pre-mRNA sequence elements in splice site selection. 156 43

Intercalators are molecules capable of sliding between base pairs without disturbing the overall stacking pattern. In addition, there may exist molecules capable of inserting into a base pair thereby disrupting the hydrogen bonds and replacing them with new hydrogen bonds. A molecule probably capable of inserting, i.e., an insertor, is the diketopiperazine cyclo-[Gly-Gly] (1). A barbiturate (2), alloxan (3), a pyrimidine derivative (4) and a hydantoin (5) were also studied as possible insertors. Furthermore, molecules such as ethyleneurea (6), succinimide (7), as well as a malonamide derivative (8) and oxamide derivatives (9-11) were studied in order to investigate the arrangement and the number of hydrogen bonds necessary for insertion. Molecules 12-14 were designed and studied for their capacity to act as bisinsertors and/or bisintercalators. These molecules feature two diketopiperazine moieties which are connected via a diphenyl(thio)ether, i.e., 12 and 13, or a bisphenol A spacer, i.e., 14. The latter molecule (14) seems a promising candidate as a bisinsertor.
J Comput Aided Mol Des 1992 Feb
PMID:Computer-aided molecular modeling and design of DNA-inserting molecules. 158 38

Primer extension experiments showed that the argR gene, encoding the arginine repressor in Salmonella typhimurium, is transcribed from a single promoter that is negatively regulated by arginine. A repressor overproducing strain was constructed and the repressor was purified to homogeneity. Gel filtration, sedimentation and cross-linking studies established that the native repressor is a hexamer of identical 17,000 Mr subunits. Gel retardation experiments indicate that the apparent dissociation constant for repressor/carAB operator is 6 x 10(-12) M. These experiments showed that arginine is essential for binding of the repressor to the DNA and that pyrimidine nucleotides have no significant effect on this binding. These results indicate that the effect of pyrimidines on expression of the arginine sensitive "downstream" carAB promoter is not directly mediated by the arginine repressor. These experiments also suggest that a single hexamer binds to the carAB operator, which carries two previously defined "ARG box" sequences that characterize operators for arg genes. Gel retardation experiments with DNA fragments carrying the individual ARG boxes showed that both boxes are required for effective binding of the hexameric repressor to the operator, indicating that the ARG boxes comprise a single binding site for the repressor. Analysis of the potential secondary structure of the arginine repressor does not reveal any of the recognizable structural motifs common to a number of DNA-binding proteins. A combination of DNase I, premethylation interference, depurination and hydroxyl radical footprinting techniques were employed to characterize the interactions of the repressor with the carAB operator, with the results suggesting that the repressor predominantly interacts with A.T residues in this region. Comparative DNA sequence analysis of the known arginine operators of enteric bacteria further indicates that the specificity of interaction may be based more on the precise distance between two defined A.T-rich regions rather than on the specific nucleotide sequence.
J Mol Biol 1992 May 05
PMID:Characterization of the arginine repressor from Salmonella typhimurium and its interactions with the carAB operator. 158 85

The numbers and local sequence environments of the two types of substitution mutation plus additions and deletions have been obtained directly in this study from differences between a large number of extant primate gene and pseudogene sequences. A total of 3786 mutations were scored in regions where similarities between pseudogene and corresponding gene sequences is greater than or equal to 85%, comprising approximately 30% of the pseudogene database of 80,584 bp. The pattern of mutations obtained in this fashion is almost identical to that obtained by Li et al. (1984) using a slightly different, more direct approach and with a smaller database. When mutations were scored, the neighbor pairs on the 5' and 3' sides were also noted, leading to a large 16 x 12 matrix of transitions and transversions. Biases of varying magnitude are found in the rates of substitution of the same base pair in different local sequence environments. The overall order for the effect of the 5' neighbor on the rates of substitution mutation of a pyrimidine is A greater than C much greater than T greater than G, and G greater than A greater than T greater than C for the 3' neighbor; where these results represent the average of substitution rates for the complement purine with complement neighbors of bases ordered above. The order for the 3' neighbor is essentially the same for the two transitions and most of the four transversions as well; however, the order for the 5' neighbor is more variable. The overall rate for the C.G----T.A transition is not unusual, however the presence of a 3' neighboring G.C pair boosts the rate substantially, presumably due to specific cytosine methylation of the CG doublet in primate DNAs. The rate of the T.A----C.G transition is also well above average when the 3' neighbor is an A.T, and to a lesser extent a G.C, pair. The latter bias is typical in that it reflects the association of alternating pyrimidine-purine sequences with increasing mutation rates. The substitution of the pyrimidine in a 5'purine-pyrimidine-purine3' sequence generally occurs much faster than in a pyrimidine tract and points to the local conformation as a major determining factor of the substitution rate. An apparent inverse relationship is found between starting and product doublet frequencies of base pairs undergoing mutations with specific 3' neighbors, indicating that differences in intrinsic substitution rates of base pairs with specific neighbors are a key factor in producing the familiar biases of nearest-neighbor frequencies.
J Mol Evol 1992 Mar
PMID:The influence of nearest neighbors on the rate and pattern of spontaneous point mutations. 158 94

Short tracts of the homopolymer dA.dT confer intrinsic curvature on the axis of the DNA double helix. This phenomenon is assumed to be a consequence of such tracts adopting a stable B'-DNA conformation that is distinct from B-form structure normally assumed by other DNA sequences. The more stable B' structure of dA.dT tracts has been attributed to several possible stabilizing factors: (1) optimal base stacking interactions consequent upon the high propeller twist, (2) bifurcated hydrogen bonds between adjacent dA.dT base-pairs, (3) stacking interactions involving the dT methyl groups, and finally (4) a putative spine of ordered water molecules in the minor groove. DNA oligodeoxynucleotides have been synthesized that enable these hypotheses to be tested; of particular interest is the combination of effects due to bifurcation (2) and methylation of the pyrimidines nucleotides (3). The data indicate that neither bifurcated hydrogen bonds nor pyrimidine methyl groups nor both are essential for DNA curvature. The data further suggest that the influence of the minor groove spine of hydration on the B'-formation is small. The experiments favor the hypothesis that base stacking interactions are the dominant force in stabilizing the B'-form structure.
J Mol Biol 1992 Jun 05
PMID:DNA curvature does not require bifurcated hydrogen bonds or pyrimidine methyl groups. 160 79

In order to describe the detailed conformation of the oxidized flavodoxin from a eukaryotic red alga, Chondrus crispus, the crystal structure has been refined by a restrained least-squares method. The crystallographic R factor is 0.168 for 13,899 reflections with F greater than 2 sigma F between 6.0 and 1.8 A resolution. The refined model includes 173 amino acid residues, flavin mononucleotide (FMN) and 110 water molecules. The root-mean-square deviation in bond lengths from ideal values is 0.015 A, and the mean co-ordinate error is estimated to be 0.2 A. The FMN is located at the periphery of the molecule. The orientation of the isoalloxazine ring is such that the C-7 and C-8 methyl groups are exposed to solvent and the pyrimidine moiety is buried in the protein. Three peptide segments, T8-T13, T55-T58 and D94-C103, are involved in FMN binding. The first segment of T8-T13 enfolds the phosphate group of the FMN. The three oxygen atoms in the phosphate group form extensive hydrogen bonds with amide groups of the main chain and the O gamma atoms of the side-chains in this segment. T55 O and W56 N epsilon 1 in the second segment form hydrogen bonds with O-2 in the ribityl moiety and one of the oxygen atoms in the phosphate group, respectively. The O gamma H of T58 forms a hydrogen bond with the N-5 atom in the isoalloxazine ring, which is expected to be protonated in the semiquinone form. The third segment is in contact with the isoalloxazine ring. It appears that the hydrogen bond acceptor of the NH of Asp94 in the third segment is O-2 rather than N-1 in the isoalloxazine ring. The isoalloxazine ring is flanked by the side-chains of Trp56 and Tyr98; it forms an angle of 38 degrees with the indole ring of Trp56 and is almost parallel to the benzene ring of Tyr98. The environment of the phosphate group is conserved as in other flavodoxins whereas that of the isoalloxazine ring differs. The relationship between the hydrogen bond to the N-5 in the ring and the redox potential for the oxidized/semiquinone couple is discussed.
J Mol Biol 1992 Jun 05
PMID:Crystal structure of oxidized flavodoxin from a red alga Chondrus crispus refined at 1.8 A resolution. Description of the flavin mononucleotide binding site. 160 81

The purine repressor is a putative helix-turn-helix DNA-binding protein that regulates several genetic loci important in purine and pyrimidine metabolism in Escherichia coli. The protein is composed of two domains, an N-terminal DNA-binding domain and a C-terminal core that binds the purine co-repressors, guanine and hypoxanthine. The co-repressor binding domain (residues 53 to 341) has been crystallized from polyethylene glycol 600-MgCl2 solutions. They are of the monoclinic form, space group P2(1), with a = 38.2 A, b = 125.7 A, c = 61.8 A and beta = 100.2 degrees. They diffract to a resolution of at least 2.2 A and contain two monomers per asymmetric unit. The importance of the structural determination of this domain is underscored by the high degree of sequence homology displayed within the effector binding sites among a sub-class of helix-turn-helix proteins, of which LacI and GalR are members. The structure of the PurR co-repressor binding domain will provide a high resolution view of one such domain and could serve as a possible model for future effector site structural determinations. Perhaps more important will be this structure's contribution to the further understanding of how protein-DNA interactions are modulated.
J Mol Biol 1992 Jun 20
PMID:Crystallization and preliminary X-ray studies on the co-repressor binding domain of the Escherichia coli purine repressor. 161 95

The carboxypeptidase gene from rice and corresponding cDNA clones were isolated. The Sal I 11.2 kb fragment of DNA cloned from a size-fractionated genome library contained eight introns and an open reading frame that encoded 500 amino acids (M(r) 55,445). The structure deduced for the carboxypeptidase from rice was very similar to those of type III serine carboxypeptidases from barley and wheat. The extent of homology of the amino acid sequence to that of these carboxypeptidases from barley and wheat was 92.3% and 87.2%, respectively. The accumulation of mRNA for the rice carboxypeptidase was conspicuous in germinating endosperms that contained aleurone layers, but levels were lower in leaves and roots. The abundance of the mRNA in endosperms was enhanced by gibberellic acid (GA) and accumulation of the mRNA was inhibited by abscisic acid (ABA). The rice gene for carboxypeptidase contained some pyrimidine boxes (C/TCTTTTC/T), in the 5' flanking region, which are a characteristic of a GA-responsive gene.
Plant Mol Biol 1992 Jul
PMID:Structure and expression during the germination of rice seeds of the gene for a carboxypeptidase. 162 76

The objective of this work is to describe sample-size calculations for the inference of a nonzero central branch length in an unrooted four-species phylogeny. Attention is restricted to independent binary characters, such as might be obtained from an alignment of the purine-pyrimidine sequences of a nucleic acid molecule. A statistical test based on a multinomial model for character-state configurations is described. The importance of including invariable sites in models for sequence change is demonstrated, and their effect on sample size is quantified. The methods are applied to a four-species alignment of small-subunit rRNA sequences derived from two archaebacteria, a eubacteria and a eukaryote. We conclude that the information in these sequences is not sufficient to resolve the branching order of this tree. Estimates of the number of aligned nucleotide positions required to provide a reasonably powerful test are given.
Mol Biol Evol 1992 Jul
PMID:Sample size for a phylogenetic inference. 163 Mar 11

We have used gel electrophoresis to show that the pyrimidine bulge of the HIV-1 TAR sequence causes a local bending of the helical axis. The TAR bulge caused a retardation in electrophoretic mobility in polyacrylamide gels. When this was placed adjacent to an additional bulged sequence in a linear RNA fragment, the mobility of the molecule varied sinusoidally with the spacing between the two bulges. Electrophoretic mobilities suggested that the TAR sequence context of the pyrimidine bulge causes a greater degree of axial kinking than in an equivalent randomly chosen sequence. Experiments in which an A5 bulge was progressively opposed by adenine bases inserted in the opposite strand showed that even a single opposed adenine markedly reduced electrophoretic mobility, i.e. axial bending, and two adenine bases reduced the mobility virtually to that of a normal duplex. We suggest that the pronounced kinking resulting from an unopposed bulge provides a particularly recognizable feature in RNA, and that this is the basis of the interaction between the HIV Tat protein and the TAR sequence.
J Mol Biol 1992 Jul 20
PMID:Kinking of RNA helices by bulged bases, and the structure of the human immunodeficiency virus transactivator response element. 164 Apr 50


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