Expression in mouse L cells of mos-related ORAgp5 locus cloned from the human genome]

The recombinant locus ORAgp5 containing the regions homologous to protooncogene mos was previously cloned from the human genome. In order to monitor the expression of this human genome region, we have transfected the recombinant phage gp5 into mouse LMtk cells. One of these transfectants contained several copies of gp5. ORAgp5 sequences were found to be expressed in 1.5 kb RNA from this clone.     

Evolutionary variants of the mos gene

The occurence of members of mos oncogene family in the vertebrates genome has been studied with the help of highly labeled single-stranded DNA probes. These included subgenic v-mos clones as well as the unique sequence--specific recombinants from mos-related human locus gp5 and the K51 locus from rat genome. The probe from gp5 (mos pseudogene) interacts only with DNA of primates and of rodents. On the other hand, mos gene and the gene from K51 locus are present in all vertberates tested. Recent duplication of the main mos gene in Artiodactyla and Perissodactyla orders of mammals was identified. The persistence of K51 and mos genes during evolution indicates their importance. The segregation of three mos-related genes in human-hamster hybrids points to their location on different human chromosomes.     

Genes and pseudogenes for human U2 RNA: Implications for the mechanism of pseudogene formation

Three loci, designated U2/4, U2/6 and U2/7, which contain sequences related to human U2 RNA, have been studied. The U2/6 locus contains a tandem array of bona fide U2 genes. U2/4 and U2/7, in contrast, contain pseudogenes whose sequences deviate significantly from that of mammalian U2 RNA. The two pseudogenes appear to have been created by different mechanisms. The sequences that flank the pseudogene in the U2/4 locus lack homology to the corresponding sequences in functional human U2 genes, except for 10 base-pairs immediately following the 3′ end. The conserved 3′-flanking segment is homologous to those nucleotides that are present in a U2 RNA precursor. No direct repeats flank the pseudogene in the U2/4 locus. The observations thus suggest that a complementary DNA copy of the U2 RNA precursor was inserted into a blunt-ended chromosomal break to generate the U2/4 locus.The U2/7 locus, in contrast, revealed flanking sequence homology when compared to functional U2 genes, both on the 5′ and 3′ sides of the pseudogene. The homology was interrupted on both sides by repetitive sequences belonging to the Alu family. On the 5′ side the homology continues beyond the Alu repeats whereas on the 3′ side it ends precisely at the Alu repeat. This Alu repeat is inserted in a region where a homocopolymeric region of alternating C and T residues is located in functional U2 loci. The observed organization of the U2/7 locus suggests that a previously functional U2 locus was invaded by Alu repeats and subsequently accumulated base substitutions to become a pseudogene.     

Genetic structure of people from the Volga-Ural region and Central Asia from data of Alu-polymorphism

Nine Alu loci (Ya5NBC5, Ya5NBC27, Ya5NBC148, Ya5NBC182, YA5NBC361, ACE, ApoA1, PV92, TPA25) were analyzed in six ethnic populations (Trans-Ural Bashkirs, Tatars-Mishars, Mordovians-Moksha, Mountain Maris, Udmurts, and Komi-Permyaks) of the Volga-Ural region and in three Central Asian populations (Uzbeks, Kazakhs, and Uigurs). All Alu insertions analyzed appeared to be polymorphic in all populations examined. The frequency of insertion varied from 0.110 in Mountain Maris at the Ya5NBC5 locus to 0.914 in Tatars at the ApoA1 locus. The data on the allele frequency distribution at nine loci point to the existence of substantial genetic diversity in the populations examined. The value of the observed heterozygosity averaged over nine Alu insertions varied from 0.326 in Mountain Maris to 0.445 in Kazakhs and Uigurs. The level of the interpopulation genetic differences for the Volga-Ural population (Fst = 0.061) was higher than for the populations of Central Asia (Fst = 0.024), Europe (Fst = 0.02), and Southeastern Asia (Fst = 0.018). The populations examined were highly differentiated both in respect of linguistic characteristics and the geographical position. The data obtained confirmed the effectiveness of the marker system used for the assessment of genetic differentiation and the relationships between the ethnic groups.     

A trinucleotide repeat-associated increase in the level of Alu RNA-binding protein occurred during the same period as the major Alu amplification that accompanied anthropoid evolution.

Nearly 1 million Alu elements in human DNA were inserted by an RNA-mediated retroposition-amplification process that clearly decelerated about 30 million years ago. Since then, Alu sequences have proliferated at a lower rate, including within the human genome, in which Alu mobility continues to generate genetic variability. Initially derived from 7SL RNA of the signal recognition particle (SRP), Alu became a dominant retroposon while retaining secondary structures found in 7SL RNA. We previously identified a human Alu RNA-binding protein as a homolog of the 14-kDa Alu-specific protein of SRP and have shown that its expression is associated with accumulation of 3'-processed Alu RNA. Here, we show that in early anthropoids, the gene encoding SRP14 Alu RNA-binding protein was duplicated and that SRP14-homologous sequences currently reside on different human chromosomes. In anthropoids, the active SRP14 gene acquired a GCA trinucleotide repeat in its 3'-coding region that produces SRP14 polypeptides with extended C-terminal tails. A C-->G substitution in this region converted the mouse sequence CCA GCA to GCA GCA in prosimians, which presumably predisposed this locus to GCA expansion in anthropoids and provides a model for other triplet expansions. Moreover, the presence of the trinucleotide repeat in SRP14 DNA and the corresponding C-terminal tail in SRP14 are associated with a significant increase in SRP14 polypeptide and Alu RNA-binding activity. These genetic events occurred during the period in which an acceleration in Alu retroposition was followed by a sharp deceleration, suggesting that Alu repeats coevolved with C-terminal variants of SRP14 in higher primates.     

Analysis of Y-chromosomal diallelic loci polymorphism in populations of the Volga-Ural region

Three diallelic polymorphisms of human Y chromosome, DYS287 (Y Alu polymorphism, YAP), T/C transition at the RBF5 locus (Tat), and G/A transition at the LLY22 locus, were studied in eight ethnic populations of the Volga-Ural region, representing Turkic (Bashkirs, Tatars, and Chuvashes) and Finno-Ugric (Maris, Mordovians, Udmurts, Komi-Zyryans, and Komi-Permyaks) branches of the Uralic linguistic family, and in the group of Slavic migrants, belonging to the Indo-European linguistic family (Russians). Ethnic populations of the Volga-Ural region were characterized by a low frequency of the Y chromosome Alu insertion. Examination of an association between the Alu polymorphism and Tat mutation revealed absolute C/YAP linkage. Analysis of the haplotype frequency distribution patterns constructed from the data on the DYS287 and RBF5 polymorphisms revealed substantial differences between Udmurts and the other ethnic populations. The differences were also observed between Komi-Zyryans and the populations of Bashkirs, Mordovians, Komi-Permyaks, and Russians. Analysis of the degree of genetic differentiation pointed to high level of genetic differentiation of the male lineages of the Finno-Ugric ethnic groups. The data on the linkage between mutations of the RBF5 and the LLY22 loci indicated the common origin of the Tat mutation in Bashkirs, Mordovians, Udmurts, and Komi-Zyryans, and of a number of ancestral C allele-bearing chromosomes in Tatars, Maris, and Chuvashes.     

The restriction endonuclease Alu I induces chromosomal aberrations and mutations in the hypoxanthine phosphoribosyltransferase locus, but not in the Na+/K+ ATPase locus in V79 hamster cells

The restriction endonuclease Alu I induces chromosomal aberrations and mutations in the hypoxanthine phosphoribosyltransferase (HPRT) locus as measured by 6-thioguanine resistance (TGr) in V79 hamster cells. Alu I does not induce mutations in the Na+/K+ ATPase locus as measured by ouabain resistance (OUAr). The data are interpreted to mean that most if not all Alu I-induced TGr mutations represent chromosomal aberrations.     

Xenobiotic responsive element in the 5'-upstream region of the human P-450c gene.

The nucleotide sequence of the 5'-upstream region up to about -4.1 kb of the human P-450c gene was determined. Two kinds of repetitive sequences were located; one was the Alu sequence which was inserted at three positions (-3127 to -3038, -3017 to -2770, and -2167 to -1851), and the other was the SINE-R element located just upstream of the most distal Alu sequences. The region other than the two repeated sequences showed an overall similarity of 70% to that of the rat P-450c gene. Survey of XRE or its homologues, responsible for the inducible expression of the rat P-450c gene, revealed eight XRE core sequences in this region of the human P-450c gene. Three of them were carried in the Alu sequences. A fusion gene which was constructed by ligating the upstream region of the human P-450c gene to the chloramphenicol acetyltransferase (CAT) gene expressed the CAT activity in response to the inducer, methylcholanthrene, when transfected into Hepa-1 cells. Stepwise decrease in CAT activity in three regions was observed as the 5'-upstream sequence containing XRE motifs was removed. However, the XRE core sequence in the Alu sequences seemed inactive, because elimination of the three elements in the Alu sequences did not affect the expressed CAT activity. In accordance with this observation, competition experiments using gel mobility shift assay showed that XRE core sequences in the Alu sequences could not compete with the XRE sequence for the inducer-bound receptor.(ABSTRACT TRUNCATED AT 250 WORDS)     

Repetitive DNA sequences in the human corticotropin-beta-lipotrophin precursor gene region: Alu family members.

Repetitive DNA sequences in the human corticotropin-beta-lipotropin precursor gene region have been studied by blot hybridization analysis and DNA sequencing. Six repetitive sequences are present in this gene region; five of them are Alu family members with an approximate length of 300 base pairs, and the other consists of a portion of an Alu family sequence. Two of these Alu family members are located in the 5'-flanking region of the gene, and the remaining four within the intervening sequences. These Alu family sequences constitute inverted repeats in the intervening sequences as well as in the 5'-flanking region of the gene.     

Solid-State and Solution Characterization of Myricetin

Myricetin (MYR) is a natural compound that has been investigated as a chemopreventative agent. MYR has been shown to suppresses ultraviolet B (UVB)-induced cyclooxygenase-2 (COX-2) protein expression and reduce the incidence of UVB-induced skin tumors in mice. Despite MYR’s promise as a therapeutic agent, minimal information is available to guide the progression of formulations designed for future drug development. Here, data is presented describing the solid-state and solution characterization of MYR. Investigation into the solid-state properties of MYR identified four different crystal forms, two hydrates (MYR I and MYR II) and two metastable forms (MYR IA and MYR IIA). From solubility studies, it was evident that all forms are very insoluble (<5 μg/ml) in pure water. MYR I was found to be the most stable form at 23, 35, and 56°C. Stability determination indicated that MYR undergoes rapid apparent first-order degradation under basic pH conditions, and that degradation was influenced by buffer species. Apparent first-order degradation was also seen when MYR was introduced to an oxidizing solution. Improved stability was achieved after introducing 0.1% antioxidants to the solution. MYR was found to have good stability following exposure to ultraviolet radiation (UVR), which is a consideration for topical applications. Finally, a partitioning study indicated that MYR possess a log P of 2.94 which, along with its solid-state properties, contributes to its poor aqueous solubility. Both the solid-state properties and solution stability of MYR are important to consider when developing future formulations.KEY WORDS: hydrate, log P, myricetin, solubility, stability     

Linkage disequilibrium among RFLPs at the insulin-receptor locus despite intervening Alu repeat sequences.

Multiple mutations of the insulin receptor (INSR) gene have been identified in individuals with extreme insulin resistance. These mutations have included recombination events between Alu repeat units in the tyrosine kinase-encoding beta-chain region of the gene. To evaluate the influence of Alu and dinucleotide repetitive sequences on recombination events within the insulin receptor gene, I examined the degree of linkage disequilibrium between RFLP pairs spanning the gene. I established 228 independent haplotypes for seven RFLPs (two each for PstI, RsaI, and SstI and one for MspI and 172 independent haplotypes which included an additional RFLP with BglII) from 19 pedigrees. These RFLPs span > 130 kb of this gene, and my colleagues and I previously demonstrated that multiple Alu sequences separate RFLP pairs. Observed haplotype frequencies deviated significantly from those predicted. Pairwise analysis of RFLP showed high levels of linkage disequilibrium among RFLP in the beta-chain region of the insulin receptor, but not between alpha-chain RFLPs and those of the beta-chain. Disequilibrium was present among beta-chain RFLPs, despite separation by one or more Alu repeat sequences. The very strong linkage disequilibrium which was present in sizable regions of the INSR gene despite the presence of both Alu and microsatellite repeats suggested that these regions do not have a major impact on recombinations at this locus.     

Junctions between genes in the haptoglobin gene cluster of primates.

To investigate the nature of the recombination that generated the haptoglobin three-gene cluster in Old World primates, we sequenced the region between the second gene (HPR) and the third gene (HPP) in chimpanzees (15 kb), as well as the region 3' to the cluster in humans (14 kb). Comparison to the previously sequenced human haptoglobin (HP) and HPR genes showed that the junction point between HP and HPR in humans (junction 1) was not identical to the junction point between the HPR and HPP genes of the chimpanzee (junction 2). An Alu sequence was found at each junction, but both Alu sequences lacked short direct repeats of the flanking genomic DNA. The lack of direct repeats implies that both junction Alu sequences are the products of recombination between different Alu elements. In addition, other insertion and deletion events are clustered in the regions near the junction Alu sequences. The observation that Alu sequences define the junctions between genes in the haptoglobin gene cluster emphasizes the importance of Alu sequences in the evolution of multigene families.     

Short tandem-repeat polymorphism/alu haplotype variation at the PLAT locus: implications for modern human origins

Two dinucleotide short tandem-repeat polymorphisms (STRPs) and a polymorphic Alu element spanning a 22-kb region of the PLAT locus on chromosome 8p12-q11.2 were typed in 1,287-1,420 individuals originating from 30 geographically diverse human populations, as well as in 29 great apes. These data were analyzed as haplotypes consisting of each of the dinucleotide repeats and the flanking Alu insertion/deletion polymorphism. The global pattern of STRP/Alu haplotype variation and linkage disequilibrium (LD) is informative for the reconstruction of human evolutionary history. Sub-Saharan African populations have high levels of haplotype diversity within and between populations, relative to non-Africans, and have highly divergent patterns of LD. Non-African populations have both a subset of the haplotype diversity present in Africa and a distinct pattern of LD. The pattern of haplotype variation and LD observed at the PLAT locus suggests a recent common ancestry of non-African populations, from a small population originating in eastern Africa. These data indicate that, throughout much of modern human history, sub-Saharan Africa has maintained both a large effective population size and a high level of population substructure. Additionally, Papua New Guinean and Micronesian populations have rare haplotypes observed otherwise only in African populations, suggesting ancient gene flow from Africa into Papua New Guinea, as well as gene flow between Melanesian and Micronesian populations.     

Alternative splicing of Myb-related genes MYR1 and MYR2 may modulate activities through changes in dimerization,localization, or protein folding

Arabidopsis genes MYR1 and MYR2 are regulators of flowering time under low light intensity. These Myb-related genes are expressed as alternative splice variants affected in their coiled-coil and DNA-binding domains. We tested whether alternative splicing could affect dimerization and localization of MYR1 and MYR2, thereby potentially affecting their activity. Using MYR1 as a model for variants within the coiled-coil region, we detected 2 types of homodimers. For MYR2, alternative splicing in the DNA-binding Myb-like domain abolished the ability of MYR2 to dimerize. Alternative splicing in the coiled-coil domain did not affect nuclear localization, as determined by transient expression in tobacco, while alternative splicing in the DNA-binding domain of MYR2 yielded a distinct intranuclear localization pattern that may reflect changes in phosphorylation-dependent protein folding. Thus alternative splicing of these genes may result in changes in dimerization or protein folding resulting in changes in activity and abundance of MYR1 or MYR2 protein.     

Characterization of the recombination hot spot involved in the genomic rearrangement leading to the hybrid D-CE-D gene in the D(VI) phenotype.

In the Caucasian population, the RH locus of RhD-positive individuals is composed of two homologous genes, RHD and RHCE, arranged in tandem but of a single gene, RHCE, in RhD-negative individuals. Many variants recently characterized carry rearranged RH genes, most often by an unidirectional segmental DNA-exchange (gene-conversion) event. In D(VI) variants of type II, RHD is a D-CE-D hybrid gene in which the DNA fragment carrying exons 4-6 has been replaced by the corresponding sequences from the RHCE gene. To identify precisely and characterize the two transition sites, we have studied, by both PCR and sequence analysis, a genomic region between the 3' end of intron 3 and exon 7 in normal RHCE and RHD genes as well as in D(VI) DNA. We show that the D-CE breakpoint is located in intron 3, within a 250-bp fragment comprising an Alu S sequence, and that the CE-D breakpoint lies within a 39-bp fragment in intron 6. This Alu S sequence (and the 100-bp region immediately downstream) most likely defines a recombination hot spot, since there lies also the 5' breakpoint of different rearrangement events leading to D-CE and CE-D transitions in hybrid D(VI),DFR and Dc-,R(N) gene complexes, respectively.     

Characteristics of myotonic dystrophy in Istria: molecular genetic approach. Part II: Analysis of genetic polymorphisms

One of the world highest prevalence estimates of myotonic dystrophy (DM) has been reported in the Croatian region Istria. To analyse the population genetic characteristics of DM locus in Istria, two intragenic and three extragenic polymorphic markers were tested. The Southern blot technique was used for D19S63 locus analysis, whereas PCR analysis was performed for CKMM, Alu polymorphism, DMPK (G/T) intron 9/HinfI polymorphism, and D19S207 genetic markers. The compound haplotypes segregating with DM were established. A complete association between the DM mutation and D19S63, D19S207, intron 9/HinfI polymorphism and Alu polymorphism markers were found. In all DM chromosomes: D19S63 and Alu markers had the allele 1 in common; D19S207 had the allele 3 in common, DMPK (G/T) intron 9/HinfI marker had the allele 2 in common. The analysis of CKMM polymorphism revealed genotype heterogeneity; in DM chromosomes either allele 2 or allele 4 were found. The haplotype analysis in the population of Croatian Istria supports the linkage disequilibrium between the DM mutation and Alu polymorphism, intron 9/HinfI polymorphism, D19S63 and D19S207 markers as reported worldwide. The results of the haplotype analysis suggest a common origin of the mutation in Istrian population.