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571.
Hutchison AT Schmitz JE Miller CJ Sastry KJ Nehete PN Major AM Ansari AA Tatevian N Lewis DE 《Journal of medical primatology》2011,40(6):414-426
Background Unlike Asian non‐human primates, chronically SIV‐infected African non‐human primates (NHP) display a non‐pathogenic disease course. The different outcomes may be related to the development of an SIV‐mediated breach of the intestinal mucosa in the Asian species that is absent in the African animals. Methods To examine possible mechanisms that could lead to the gut breach, we determined whether the colonic lamina propria (LP) of SIV‐naïve Asian monkeys contained more granzyme B (GrB) producing CD4 T cells than did that of the African species. GrB is a serine protease that may disrupt mucosal integrity by damaging tight junction proteins. Results We found that the colonic LP of Asian NHP contain more CD4+/GrB+ cells than African NHP. We also observed reduced CD4 expression on LP T cells in African green monkeys. Conclusion Both phenotypic differences could protect against SIV‐mediated damage to the intestinal mucosa and could lead to future therapies in HIV+ humans. 相似文献
572.
Phenotypic variation in human intellectual functioning shows substantial heritability, as demonstrated by a long history of behavior genetic studies. Many recent molecular genetic studies have attempted to uncover specific genetic variations responsible for this heritability, but identified effects capture little variance and have proven difficult to replicate. The present study, motivated an interest in “mutation load” emerging from evolutionary perspectives, examined the importance of the number of rare (or infrequent) copy number variations (CNVs), and the total number of base pairs included in such deletions, for psychometric intelligence. Genetic data was collected using the Illumina 1MDuoBeadChip Array from a sample of 202 adult individuals with alcohol dependence, and a subset of these (N = 77) had been administered the Wechsler Abbreviated Scale of Intelligence (WASI). After removing CNV outliers, the impact of rare genetic deletions on psychometric intelligence was investigated in 74 individuals. The total length of the rare deletions significantly and negatively predicted intelligence (r = −.30, p = .01). As prior studies have indicated greater heritability in individuals with relatively higher parental socioeconomic status (SES), we also examined the impact of ethnicity (Anglo/White vs. Other), as a proxy measure of SES; these groups did not differ on any genetic variable. This categorical variable significantly moderated the effect of length of deletions on intelligence, with larger effects being noted in the Anglo/White group. Overall, these results suggest that rare deletions (between 5% and 1% population frequency or less) adversely affect intellectual functioning, and that pleotropic effects might partly account for the association of intelligence with health and mental health status. Significant limitations of this research, including issues of generalizability and CNV measurement, are discussed. 相似文献
573.
574.
James M. Hutchison Ricardo Capone Dustin D. Luu Karan H. Shah Arina Hadziselimovic Wade D. Van Horn Charles R. Sanders 《The Journal of biological chemistry》2021,297(2)
The severe acute respiratory syndrome coronavirus 2 envelope protein (S2-E) is a conserved membrane protein that is important for coronavirus (CoV) assembly and budding. Here, we describe the recombinant expression and purification of S2-E in amphipol-class amphipathic polymer solutions, which solubilize and stabilize membrane proteins, but do not disrupt membranes. We found that amphipol delivery of S2-E to preformed planar bilayers results in spontaneous membrane integration and formation of viroporin cation channels. Amphipol delivery of the S2-E protein to human cells results in plasma membrane integration, followed by retrograde trafficking to the trans-Golgi network and accumulation in swollen perinuclear lysosomal-associated membrane protein 1–positive vesicles, likely lysosomes. CoV envelope proteins have previously been proposed to manipulate the luminal pH of the trans-Golgi network, which serves as an accumulation station for progeny CoV particles prior to cellular egress via lysosomes. Delivery of S2-E to cells will enable chemical biological approaches for future studies of severe acute respiratory syndrome coronavirus 2 pathogenesis and possibly even development of “Trojan horse” antiviral therapies. Finally, this work also establishes a paradigm for amphipol-mediated delivery of membrane proteins to cells. 相似文献
575.
The structure and function of the replication terminator protein of Bacillus subtilis: identification of the 'winged helix' DNA-binding domain. 总被引:1,自引:0,他引:1 下载免费PDF全文
K S Pai D E Bussiere F Wang C A Hutchison rd S W White D Bastia 《The EMBO journal》1996,15(12):3164-3173
The replication terminator protein (RTP) of Bacillus subtilis impedes replication fork movement in a polar mode upon binding as two interacting dimers to each of the replication termini. The mode of interaction of RTP with the terminus DNA is of considerable mechanistic significance because the DNA-protein complex not only localizes the helicase-blocking activity to the terminus, but also generates functional asymmetry from structurally symmetric protein dimers. The functional asymmetry is manifested in the polar impedance of replication fork movement. Although the crystal structure of the apoprotein has been solved, hitherto there was no direct evidence as to which parts of RTP were in contact with the replication terminus. Here we have used a variety of approaches, including saturation mutagenesis, genetic selection for DNA-binding mutants, photo cross-linking, biochemical and functional characterizations of the mutant proteins, and X-ray crystallography, to identify the regions of RTP that are either in direct contact with or are located within 11 angstroms of the replication terminus. The data show that the unstructured N-terminal arm, the alpha3 helix and the beta2 strand are involved in DNA binding. The mapping of amino acids of RTP in contact with DNA, confirms a 'winged helix' DNA-binding motif. 相似文献
576.
Developmental stage influences chromosome segregation patterns and arrangement in the extremely polyploid,giant bacterium Epulopiscium sp. type B 下载免费PDF全文
Elizabeth Hutchison Nicholas A. Yager May N. Taw Matthew Taylor Francine Arroyo David R. Sannino Esther R. Angert 《Molecular microbiology》2018,107(1):68-80
Few studies have described chromosomal dynamics in bacterial cells with more than two complete chromosome copies or described changes with respect to development in polyploid cells. We examined the arrangement of chromosomal loci in the very large, highly polyploid, uncultivated intestinal symbiont Epulopiscium sp. type B using fluorescent in situ hybridization. We found that in new offspring, chromosome replication origins (oriCs) are arranged in a three‐dimensional array throughout the cytoplasm. As development progresses, most oriCs become peripherally located. Siblings within a mother cell have similar numbers of oriCs. When chromosome orientation was assessed in situ by labeling two chromosomal regions, no specific pattern was detected. The Epulopiscium genome codes for many of the conserved positional guide proteins used for chromosome segregation in bacteria. Based on this study, we present a model that conserved chromosomal maintenance proteins, combined with entropic demixing, provide the forces necessary for distributing oriCs. Without the positional regulation afforded by radial confinement, chromosomes are more randomly oriented in Epulopiscium than in most small rod‐shaped cells. Furthermore, we suggest that the random orientation of individual chromosomes in large polyploid cells would not hamper reproductive success as it would in smaller cells with more limited genomic resources. 相似文献
577.
Waters SM Brodbeck RM Steflik J Yu J Baltazar C Peck AE Severance D Zhang LY Currie K Chenard BL Hutchison AJ Maynard G Krause JE 《The Journal of biological chemistry》2005,280(49):40617-40623
Anaphylatoxin C5a is a potent inflammatory mediator associated with pathogenesis and progression of several inflammation-associated disorders. Small molecule C5a receptor (C5aR) antagonist development is hampered by species-specific receptor biology and the associated inability to use standard rat and mouse in vivo models. Gerbil is one rodent species reportedly responsive to small molecule C5aR antagonists with human C5aR affinity. We report the identification of the gerbil C5aR cDNA using a degenerate primer PCR cloning strategy. The nucleotide sequence revealed an open reading frame encoding a 347-amino acid protein. The cloned receptor (expressed in Sf9 cells) bound recombinant human C5a with nanomolar affinity. Alignment of the gerbil C5aR sequence with those from other species showed that a Trp residue in transmembrane domain V is the only transmembrane domain amino acid unique to small molecule C5aR antagonist-responsive species (i.e. gerbil, human, and non-human primate). Site-directed mutagenesis was used to generate human and mouse C5aRs with a residue exchange of this Trp residue. Mutation of Trp to Leu in human C5aR completely eliminated small molecule antagonist-receptor interaction. In contrast, mutation of Leu to Trp in mouse C5aR enabled small molecule antagonist-receptor interaction. This crucial Trp residue is located deeper within transmembrane domain V than residues reportedly involved in C5a- and cyclic peptide C5a antagonist-receptor interaction, suggesting a novel interaction site(s) for small molecule antagonists. These data provide insight into the basis for small molecule antagonist species selectivity and further define sites critical for C5aR activation and function. 相似文献
578.
Defined transversion mutations at a specific position in DNA using synthetic oligodeoxyribonucleotides as mutagens. 总被引:8,自引:4,他引:8 下载免费PDF全文
S Gillam P Jahnke C Astell S Phillips C A Hutchison M Smith 《Nucleic acids research》1979,6(9):2973-2985
The oligodeoxyribonucleotides, pCCCAGCCTCAA, which is complementary to nucleotides 5274--4284 of bacteriophage phi X174 viral DNA , and pCCCAGCCTAAA, which corresponds to the same sequence with a C leads to A change at the ninth nucleotide, were synthesized enzymatically. The second of these oligonucleotides was used as a primer for E. coli DNA polymerase I, from which the 5'-exonculease has been removed by proteolysis (Klenow enzyme), on wild-type phi X174 viral DNA template. After ligation, this yielded closed circular heteroduplex DNA with a G, A mismatch at nucleotide 5276. Transfection of E. coli spheroplasts with the heteroduplex DNA produced phage mutated at this nucleotide (G leads to T in the viral DNA) with high efficiency (13%). The mutant DNA, which corresponds to the gene B mutant am16, was reverted (T leads to G) by the wild type oligonucleotide with an efficiency of 19%. The nucleotide changes were established by sequence determination of the mutated viral DNA using the enzymatic terminator method. The production of specific transversion mutations, together with a previous demonstration of specific transition mutations (1), established that short enzymatically synthesized oligodeoxyribonucleotides can be used to induce any class of single nucleotide replacement with high efficiency and thus provide a powerful tool for specific genetic manipulations in circular genomes like that of phi X174. 相似文献
579.
Ian Gibbs‐Seymour Ewa Markiewicz Simon Bekker‐Jensen Niels Mailand Christopher J. Hutchison 《Aging cell》2015,14(2):162-169
Lamins A/C have been implicated in DNA damage response pathways. We show that the DNA repair protein 53BP1 is a lamin A/C binding protein. In undamaged human dermal fibroblasts (HDF), 53BP1 is a nucleoskeleton protein. 53BP1 binds to lamins A/C via its Tudor domain, and this is abrogated by DNA damage. Lamins A/C regulate 53BP1 levels and consequently lamin A/C‐null HDF display a 53BP1 null‐like phenotype. Our data favour a model in which lamins A/C maintain a nucleoplasmic pool of 53BP1 in order to facilitate its rapid recruitment to sites of DNA damage and could explain why an absence of lamin A/C accelerates aging. 相似文献
580.
Sertoli cell development and function in an animal model of testicular dysgenesis syndrome 总被引:1,自引:0,他引:1
Hutchison GR Scott HM Walker M McKinnell C Ferrara D Mahood IK Sharpe RM 《Biology of reproduction》2008,78(2):352-360
Pregnancy exposure to di(n-butyl) phthalate (DBP) in rats induces a testicular dysgenesislike syndrome (TDS) in male offspring. Earlier studies suggested altered Sertoli cell development/maturation may result, especially in testes that become cryptorchid. This study quantitatively assessed Sertoli cell numerical and functional development in DBP-exposed rats and compared (unilaterally) cryptorchid and scrotal testes. Pregnant rats were gavaged with 500 mg/kg/day DBP or corn oil from embryonic (E) Days 13.5 to 21.5. Male offspring were sampled on E21.5 or Postnatal Day 6, 10, 15, 25, or 90. Sertoli cell number in DBP-exposed males was reduced by approximately 50% at E21.5 but recovered to normal by Days 25-90, accompanied by significant changes in plasma inhibin B and testosterone levels. Sertoli cell maturational development in DBP-exposed males, assessed using five protein markers (anti-müllerian hormone, cytokeratin, androgen receptor, CDKN1B, and Nestin), was largely normal, with some evidence of delayed maturation. However, in adulthood, Sertoli cells (SC) in areas lacking germ cells (Sertoli cell-only [SCO] tubules) often exhibited immature features, especially in cryptorchid testes. Sertoli cells in DBP-exposed animals supported fewer germ cells during puberty, but this normalized in scrotal testes by adulthood. Scrotal and especially cryptorchid testes from DBP-exposed animals exhibited abnormalities (SCO tubules, focal dysgenetic areas) at all postnatal ages. Cryptorchid testes from DBP-exposed animals exhibited more Sertoli cell abnormalities at Day 25 compared with scrotal testes, perhaps indicating more severe underlying Sertoli cell malfunction in these testes. Our findings support the concept of altered Sertoli cell development in TDS, especially in cryptorchid testes, but show that maturational defects in Sertoli cells in adulthood most commonly reflect secondary dedifferentiation in absence of germ cells. 相似文献