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81.
Wenqiao He Yuhan Gao Yuqi Wen Xuemei Ke Zejin Ou Jiaqi Fu Mingji Cheng Yun Mo Qing Chen 《中国病毒学》2022,37(2):215-222
Bocaviruses are associated with many human infectious diseases, such as respiratory tract infections, gastroenteritis, and hepatitis. Rats are known to be reservoirs of bocaviruses, including rodent bocavirus and rat bocavirus. Recently, ungulate bocaparvovirus 4, a known porcine bocavirus, has also been found in rats. Thus, investigating bocaviruses in rats is important for determining the origin of the viruses and preventing and controlling their transmission. To the best of our knowledge, no study to date has investigated bocaviruses in the livers of rats. In this report, a total of 624 rats were trapped in southern China between 2014 and 2017. Liver and serum samples from rats were tested for the prevalence of bocaviruses using PCR. Sequences related to ungulate bocaparvovirus 4 and rodent bocavirus were detected in both liver and serum samples. Interestingly, the prevalence of ungulate bocaparvovirus 4 (reference strain:KJ622366.1) was higher than that of rodent bocavirus (reference strain:KY927868.1) in both liver (2.24% and 0.64%, respectively) and serum samples (2.19% and 0.44%, respectively). The NS1 regions of ungulate bocaparvovirus 4 and rodent bocavirus related sequences displayed over 84% and 88% identity at the nucleic acid and amino acid levels, respectively. Furthermore, these sequences had similar genomic structure, genomic features, and codon usage bias, and shared a common ancestor. These viruses also displayed greater adaptability to rats than pigs. Our results suggested that ungulate bocaparvovirus 4 and rodent bocavirus may originate from rats and may be different genotypes of the same bocavirus species. 相似文献
82.
Chuncheng Lu Miaofei Xu Ying Wang Yufeng Qin Guizhen Du Wei Wu Xiumei Han Chao Ji Yanli Yang Aihua Gu Yankai Xia Ling Song Shoulin Wang Xinru Wang 《PloS one》2013,8(1)
Background
The meiotic program initiation pathway genes (CYP26B1, NANOS1 and STRA8) have been proposed to play key roles in spermatogenesis.Objective
To elucidate the exact role of the genetic variants of the meiosis initiation genes in spermatogenesis, we genotyped the potential functional genetic variants of CYP26B1, NANOS1 and STRA8 genes, and evaluated their effects on spermatogenesis in our study population.Design, Setting, and Participants
In this study, all subjects were volunteers from the affiliated hospitals of Nanjing Medical University between March 2004 and July 2009 (NJMU Infertile Study). Total 719 idiopathic infertile cases were recruited and divided into three groups according to WHO semen parameters: 201 azoospermia patients (no sperm in the ejaculate even after centrifugation), 155 oligozoospermia patients (sperm counts <20×106/ml) and 363 infertility/normozoospermia subjects (sperm counts >20×106/ml). The control group consisted of 383 subjects with normal semen parameters, all of which had fathered at least one child without assisted reproductive technologies.Measurements
Eight single nucleotide polymorphisms (SNPs) in CYP26B1, NANOS1 and STRA8 genes were determined by TaqMan allelic discrimination assay in 719 idiopathic infertile men and 383 healthy controls.Results and Limitations
The genetic variant rs10269148 of STRA8 gene showed higher risk of spermatogenic impairment in the groups of abnormospermia (including azoospermia subgroup and oligozoospermia subgroup) and azoospermia than the controls with odds ratios and 95% confidence intervals of 2.52 (1.29–4.94) and 2.92 (1.41–6.06), respectively (P = 0.006, 0.002 respective). Notably, larger sample size studies and in vivo or in vitro functional studies are needed to substantiate the biological roles of these variants.Conclusions
Our results provided epidemiological evidence supporting the involvement of genetic polymorphisms of the meiotic program initiation genes in modifying the risk of azoospermia and oligozoospermia in a Han-Chinese population. 相似文献83.
Duplication and adaptive evolution of the chalcone synthase genes of Dendranthema (Asteraceae) 总被引:10,自引:0,他引:10
Chalcone synthase (CHS) is a key enzyme in the biosynthesis of flavonoids, which are important for the pigmentation of flowers and act as attractants to the pollinators. Genes encoding CHS constitute a multigene family in which the copy number varies among plant species and functional divergence appears to have occurred repeatedly. Plants of the Dendranthema genus have white, yellow, and pink flowers, exhibiting considerable variation in flower color. In this article, 18 CHS genes from six Dendranthema species were sequenced. Two of them were found to be pseudogenes. The functional Dendranthema CHS genes formed three well-supported subfamilies: SF1, SF2, and SF3. The inferred phylogeny of the CHS genes of Dendranthema and Gerbera suggests that those genes originated as a result of duplications before divergence of these two genera, and the function of Dendranthema CHS genes have diverged in a similar fashion to the Gerbera CHS genes; i.e., the genes of SF1 and SF3 code for typical CHS enzymes expressed during different stages of development, whereas the genes of SF2 code for another enzyme that is different from CHS in substrate specificity and reaction. Relative rate tests revealed that the Dendranthema CHS genes significantly deviated from clocklike evolution at nonsynonymous sites. Maximum likelihood analysis showed that the nonsynonymous-synonymous (omega = d(N)/d(S)) rate ratio for the lineage ancestral to SF2 was much higher than for other lineages, with some sites having a ratio well above one. Positive selective pressure appears to have driven the divergence of SF2 from SF1 and SF3. 相似文献
84.
Sura Shayna A. Delgadillo Aaron Franco Nancy Gu Kelly Turba Rachel Fong Peggy 《Coral reefs (Online)》2019,38(3):425-429
Coral Reefs - Closely cropped algal turfs are characteristic of healthy coral reefs, but unchecked growth can cause transitions into long sediment-laden turfs, which may be an alternative degraded... 相似文献
85.
Shijia Luo Yanhong He Guogui Ning Jiaqi Zhang Guangying Ma Manzhu Bao 《Trees - Structure and Function》2011,25(6):1063-1071
Dove tree (Davidia involucrate) is a Tertiary relic species endemic to China and is reputed to be a ‘living fossil’ in the plant kingdom. Genetic diversity
and genetic structure of this species were analyzed for its conservation and management, using inter-simple sequence repeat
(ISSR) data obtained from eight populations distributed throughout seven provinces of China. A relatively high level of genetic
diversity, at both population and species levels, was detected using the POPGENE software. Analysis of molecular variance
(AMOVA) revealed a moderate level of among-population variation (i.e., 33.21%). The genetic structure of dove tree was closely
consistent with their isolated topographical distribution region based on the results of the STRUCTURE, POPGENE-UPGMA and
PCA analysis. It is postulated that the relatively high level of genetic diversity has been maintained because of: (a) the
original wild geographical distribution, (b) propagation through outcrossing seeds or root suckers, (c) the longevity of individuals
and (d) the relatively little human disturbance. Genetic drift and restricted gene are important factors affecting genetic
differentiation. There was no significant correlation between geographical distances and a pairwise comparison with genetic
distances, as analyzed by the Mantel test, but the clustering result of genetic diversity was consistent with their isolated
topographical distribution regions. Thus, maintaining the stable special habitats associated with this species is recommended
for the in situ conservation. Furthermore, it is important to develop an effective seed germination system for the maintenance
of an ex situ conservation pool of the germplasm resources. 相似文献
86.
玉米花粉单倍体植株染色体上异染色质的变异 总被引:3,自引:1,他引:3
我们用Giemsa BSG C-带技术检查了玉米花药培养获得的花粉单倍体植株根尖细胞染色体上异染色质的变异,观察结果表明,有的植株所显示的C-带数目是与供体植株的相一致,有的植株所显示的C-带数目则发生了显著变化,其中有的增加,有的减少。并讨论了异染色质发生变异的可能原因。还相应地观察到间期核中染色中心的变化是与中期染色体上C-带数目的变化相一致。 相似文献
87.
88.
Hypoxanthine-guanine phosphoribosyltransferase (HGPRT, EC 2.4.2.8) from a newly characterized thermophile Thermoanaerobacter tengcongensis was expressed in Escherichia coli and purified. Analytical gel filtration suggested that the enzyme exist as a homotetramer in solution. The optimal pH for the forward reaction was found to be 8.0 and the optimal temperature 70 degrees C. The steady-state kinetic characteristics suggest that hypoxanthine is the most effective substrate. This enzyme showed a half-life of 75min at 50 degrees C and no apparent loss of activity after 3 months at 4 degrees C. 相似文献
89.
Monitoring and classification of PAH toxicity using an immobilized bioluminescent bacteria 总被引:6,自引:0,他引:6
An immobilized recombinant bioluminescent Escherichia coli strain, harboring a lac::luxCDABE fused plasmid, which shows lower bioluminescence levels when cellular metabolism is inhibited, was used to monitor the cellular toxicity of polycyclic aromatic hydrocarbons (PAHs). PAHs, classified as pericondensed (PCPAHs) or catacondensed (CCPAHs) according to their molecular structures, were differentiable according to the response of this biosensor. Only CCPAHs were found to cause cellular toxicity, resulting in a dose-dependent decrease in the bioluminescent output. The induction of cellular toxicity by CCPAHs and PCPAHs was compared with acute toxicity predictions obtained using the quantitative structure-activity relationship (QSAR) model. A good relationship was obtained between the toxicities determined with the bioluminescent response of the immobilized bacterium GC2 and the QSAR model. It was also found that the present study offers a new method of predicting the cellular toxicities of CCPAHs or PCPAHs using this biosensor. 相似文献
90.
Tomoya Isaji Yuya Sato Tomohiko Fukuda Jianguo Gu 《The Journal of biological chemistry》2009,284(18):12207-12216
N-Glycosylation of integrin α5β1 plays a crucial role
in cell spreading, cell migration, ligand binding, and dimer formation, but
the detailed mechanisms by which N-glycosylation mediates these
functions remain unclear. In a previous study, we showed that three potential
N-glycosylation sites (α5S3–5) on the β-propeller of
the α5 subunit are essential to the functional expression of the
subunit. In particular, site 5 (α5S5) is the most important for its
expression on the cell surface. In this study, the function of the
N-glycans on the integrin β1 subunit was investigated using
sequential site-directed mutagenesis to remove the combined putative
N-glycosylation sites. Removal of the N-glycosylation sites
on the I-like domain of the β1 subunit (i.e. the Δ4-6
mutant) decreased both the level of expression and heterodimeric formation,
resulting in inhibition of cell spreading. Interestingly, cell spreading was
observed only when the β1 subunit possessed these three
N-glycosylation sites (i.e. the S4-6 mutant). Furthermore,
the S4-6 mutant could form heterodimers with either α5S3-5 or α5S5
mutant of the α5 subunit. Taken together, the results of the present
study reveal for the first time that N-glycosylation of the I-like
domain of the β1 subunit is essential to both the heterodimer formation
and biological function of the subunit. Moreover, because the
α5S3-5/β1S4-6 mutant represents the minimal
N-glycosylation required for functional expression of the β1
subunit, it might also be useful for the study of molecular structures.Integrin is a heterodimeric glycoprotein that consists of both an α
and a β subunit (1). The
interaction between integrin and the extracellular matrix is essential to both
physiologic and pathologic events, such as cell migration, development, cell
viability, immune homeostasis, and tumorigenesis
(2,
3). Among the integrin
superfamily, β1 integrin can combine with 12 distinct α subunits
(α1–11, αv) to form heterodimers, thereby acquiring a wide
variety of ligand specificity
(1,
4). Integrins are thought to be
regulated by inside-out signaling mechanisms that provoke conformational
changes, which modulate the affinity of integrin for the ligand
(5). However, an increasing
body of evidence suggests that cell-surface carbohydrates mediate a variety of
interactions between integrin and its extracellular environment, thereby
affecting integrin activity and possibly tumor metastasis as well
(6–8).Guo et al. (9)
reported that an increase in β1–6-GlcNAc sugar chains on the
integrin β1 subunit stimulated cell migration. In addition, elevated
sialylation of the β1 subunit, because of Ras-induced STGal-I transferase
activity, also induced cell migration
(10,
11). Conversely, cell
migration and spreading were reduced by the addition of a bisecting GlcNAc,
which is a product of N-acetylglucosaminyltransferase III
(GnT-III),2 to the
α5β1 and α3β1 integrins
(12,
13). Alterations of
N-glycans on integrins might also regulate their cis interactions
with membrane-associated proteins, including the epidermal growth factor
receptor, the galectin family, and the tetraspanin family of proteins
(14–19).In addition to the positive and negative regulatory effects of
N-glycan, several research groups have reported that
N-glycans must be present on integrin α5β1 for the
αβ heterodimer formation and proper integrin-matrix interactions.
Consistent with this hypothesis, in the presence of the glycosylation
inhibitor, tunicamycin, normal integrin-substrate binding and transport to the
cell surface are inhibited
(20). Moreover, treatment of
purified integrin with N-glycosidase F blocked both the inherent
association of the subunits and the interaction between integrin and
fibronectin (FN) (21). These
results suggest that N-glycosylation is essential to the functional
expression of α5β1. However, because integrin α5β1
contains 26 potential N-linked glycosylation sites, 14 in the α
subunit and 12 in the β subunit, identification of the sites that are
essential to its biological functions is key to understanding the molecular
mechanisms by which N-glycans alter integrin function. Recently, our
group determined that N-glycosylation of the β-propeller domain
on the α5 subunit is essential to both heterodimerization and biological
functions of the subunit. Furthermore, we determined that sites 3–5 are
the most important sites for α5 subunit-mediated cell spreading and
migration on FN (22). The
purpose of this study was to clarify the roles of N-glycosylation of
the β1 subunit. Therefore, we performed combined substitutions in the
putative N-glycosylation sites by replacement of asparagine residues
with glutamine residues. We subsequently introduced these mutated genes into
β1-deficient epithelial cells (GE11). The results of these mutation
experiments revealed that the N-glycosylation sites on the I-like
domain of the β1 subunit, sites number 4–6 (S4-6), are essential to
both heterodimer formation and biological functions, such as cell
spreading. 相似文献