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91.
Christopher I Keeling Macaire MS Yuen Nancy Y Liao T Roderick Docking Simon K Chan Greg A Taylor Diana L Palmquist Shaun D Jackman Anh Nguyen Maria Li Hannah Henderson Jasmine K Janes Yongjun Zhao Pawan Pandoh Richard Moore Felix AH Sperling Dezene P W Huber Inanc Birol Steven JM Jones Joerg Bohlmann 《Genome biology》2013,14(3):R27
92.
《Cell cycle (Georgetown, Tex.)》2013,12(22):3863-3870
As rapid divisions without growth generate progressively smaller cells within an embryo, mitotic chromosomes must also decrease in size to permit their proper segregation, but this scaling phenomenon is poorly understood. We demonstrated previously that nuclear and spindle size scale between egg extracts of the related frog species Xenopus tropicalis and Xenopus laevis, but show here that dimensions of isolated mitotic sperm chromosomes do not differ. This is consistent with the hypothesis that chromosome scaling does not occur in early embryonic development when cell and spindles sizes are large and anaphase B segregates chromosomes long distances. To recapitulate chromosome scaling during development, we combined nuclei isolated from different stage Xenopus laevis embryos with metaphase-arrested egg extracts. Mitotic chromosomes derived from nuclei of cleaving embryos through the blastula stage were similar in size to replicated sperm chromosomes, but decreased in area approximately 50% by the neurula stage, reproducing the trend in size changes observed in fixed embryos. Allowing G2 nuclei to swell in interphase prior to mitotic condensation did not increase mitotic chromosome size, but progression through a full cell cycle in egg extract did, suggesting that epigenetic mechanisms determining chromosome size can be altered during DNA replication. Comparison of different sized mitotic chromosomes assembled in vitro provides a tractable system to elucidate underlying molecular mechanisms. 相似文献
93.
《Harmful algae》2013
The red tide ciliate Mesodinium rubrum is an obligate mixotroph which requires feeding on cryptomonad prey mainly to retain its photosynthetic apparatus. Functionality of the sequestered plastids has been known to be lowered within a few weeks. The upper limit of the functionally active duration for the newly retained plastid, however, has been rarely estimated or determined. In parallel with genetic analysis, we investigated dynamics of population density, orange fluorescence of the plastids, and DCMU ((3-(3,4-dichlorophenyl)-1,1-dimethylurea) photosynthetic capacity of phototrophically growing M. rubrum (strain MR-MAL01) for 100 days. M. rubrum populations continued their phototrophic growth for the first 6 weeks, with gradually decreasing growth rates. Rapid decline of population density began from the 8th week. The photosynthetic capacity remained quite stable, ranging from 0.7 during the 1st week down to 0.5 during the 11th week. On day 87, the photosynthetic capacity steeply decreased to 0.05. The orange fluorescence of the retained plastids became very weak during the 4th week, to be almost undetectable on day 98. Only plastid 16S rRNA gene kept strong band intensity of PCR products throughout the whole period of 100 day experiment. Interestingly, the band intensities from psaA and psbA genes all become dramatically weakened after day 77. After new prey cryptomonads (strain CR-MAL03) were offered to M. rubrum starved for 80 days, ‘CR-MAL03 type’ 1192-bp PCR product of plastid 16S rRNA gene was detected in most experimental single M. rubrum cells. Here, we demonstrate that M. rubrum can grow for ∼6 weeks in the absence of cryptomonad prey, and photosynthetic capacity of M. rubrum can be maintained active for ∼11 weeks without prey. Additionally, M. rubrum starved for 80 days was shown to be physiologically healthy enough to ingest cryptomonad preys and retain new plastids. 相似文献
94.
Felix E.G. Beaudry Spencer C.H. Barrett Stephen I. Wright 《Evolution; international journal of organic evolution》2020,74(2):256-269
Empirical evidence from several animal groups suggests sex chromosomes disproportionately contribute to reproductive isolation. This effect may be enhanced when sex chromosomes are associated with turnover of sex determination systems resulting from structural rearrangements to the chromosomes. We investigated these predictions in the dioecious plant Rumex hastatulus, which is composed of populations of two different sex chromosome cytotypes caused by an X-autosome fusion. Using population genomic analyses, we investigated the demographic history of R. hastatulus and explored the contributions of ancestral and neo-sex chromosomes to population genetic divergence. Our study revealed that the cytotypes represent genetically divergent populations with evidence for historical but not contemporary gene flow between them. In agreement with classical predictions, we found that the ancestral X chromosome was disproportionately divergent compared with the rest of the genome. Excess differentiation was also observed on the Y chromosome, even when we used measures of differentiation that control for differences in effective population size. Our estimates of the timing of the origin of neo-sex chromosomes in R. hastatulus are coincident with cessation of gene flow, suggesting that the chromosomal fusion event that gave rise to the origin of the XYY cytotype may have also contributed to reproductive isolation. 相似文献
95.
Feminization of complex traits in Drosophila melanogaster via female-limited X chromosome evolution*
Katrine K. Lund-Hansen Jessica K. Abbott Edward H. Morrow 《Evolution; international journal of organic evolution》2020,74(12):2703-2713
A handful of studies have investigated sexually antagonistic constraints on achieving sex-specific fitness optima, although exclusively through male-genome-limited evolution experiments. In this article, we established a female-limited X chromosome evolution experiment, where we used an X chromosome balancer to enforce the inheritance of the X through the matriline, thus removing exposure to male selective constraints. This approach eliminates the effects of sexually antagonistic selection on the X chromosome, permitting evolution toward a single sex-specific optimum. After multiple generations of selection, we found strong evidence that body size and development time had moved toward a female-specific optimum, whereas reproductive fitness and locomotion activity remained unchanged. The changes in body size and development time are consistent with previous results, and suggest that the X chromosome is enriched for sexually antagonistic genetic variation controlling these particular traits. The lack of change in reproductive fitness and locomotion activity could be due to a number of mutually nonexclusive explanations, including a lack of sexually antagonistic variance on the X chromosome for those traits or confounding effects of the use of the balancer chromosome. This study is the first to employ female-genome-limited selection and adds to the understanding of the complexity of sexually antagonistic genetic variation. 相似文献
96.
A series of well-orchestrated events help in the chromatin condensation and the formation of chromosomes. Apart from the formation of chromosomes, maintenance of their structure is important, especially for the cell division. The structural maintenance of chromosome (SMC) proteins, the non-SMC proteins and the SMC complexes are critical for the maintenance of chromosome structure. While condensins have roles for the DNA compaction, organization, and segregation, the cohesin functions in a cyclic manner through the cell cycle, as a “cohesin cycle.” Specific mechanisms maintain the architecture of the centromere, the kinetochore and the telomeres which are in tandem with the cell cycle checkpoints. The presence of chromosomal territories and compactness differences through the length of the chromosomes might have implications on selective susceptibility of specific chromosomes for induced genotoxicity. 相似文献
97.
Nenad Bukvic Carla CesaranoCaterina Ceccarini Marianna BrunoMaria Rosaria Lipsi Maria Grazia GallicchioMaria Assunta Carboni Lucia ValenteGiulia Cotoia Raffaele Antonetti 《Gene》2013
Herein, we describe a case of an infertile man detected in postnatal diagnosis with FISH characterization and array-CGH used for genome-wide screening which allowed the identification of a complex rearrangement involving sex chromosomes, apparently without severe phenotypic consequences. The deletion detected in our patient has been compared with previously reported cases leading us to propose a hypothetical diagnostic algorithm that would be useful in similar clinical situations, with imperative multi disciplinary approach integrated with genetic counseling. Our patient, uniquely of reproductive age, is one of six reported cases of duplication of Xp22.3 (~ 8.4 Mb) segment and contemporary deletion of Yq (~ 42.9 Mb) with final karyotype as follows:
- 46,X,der(Y),t(X;Y)(Ypter → Yq11.221::Xp22.33 → Xpter).ish der(Y) (Yptel+,Ycen+,RP11-529I21+,RP11-506M9-Yqtel −,Xptel +). arrXp22.33p22.31(702–8,395,963, 8,408,289x1), Yq11.221q12 (14,569,317x1, 14,587,321–57,440,839x0) 相似文献
98.
99.
100.
E. Rodriguez R. Azevedo C. Remédios T. Almeida P. Fernandes C. Santos 《Journal of plant physiology》2013
Chromium (Cr), as a mutagenic agent in plants, has received less attention than other metal pollutants. To understand if Cr induces microsatellite instability (MSI), Pisum sativum seedlings were exposed for 28 days to different concentrations of Cr(VI) up to 2000 mg L−1, and the genetic instability of ten microsatellites (SSRs) was analyzed. In plants exposed to Cr(VI) up to 1000 mg L−1, MSI was never observed. However, roots exposed to 2000 mg L−1 displayed MSI in two of the loci analyzed, corresponding to a mutation rate of 8.3%. SSR2 (inserted in the locus for plastid photosystem I 24 kDa light harvesting protein) and SSR6 (inserted in the locus for P. sativum glutamine synthetase) from Cr(VI)-treated roots presented alleles with, respectively, less 6 bp and more 3 bp than the corresponding controls. This report demonstrates that: (a) SSRs technique is sensitive to detect Cr-induced mutagenicity in plants, being Cr-induced-MSI dose and organ dependent (roots are more sensitive); (b) two Cr-sensitive loci are related with thylakoid photophosphorylation and with glutamine synthetase, respectively; (c) despite MSI is induced by Cr(VI), it only occurs in plants exposed to concentrations higher than 1000 mg L−1 (values rarely found in real scenarios). Considering these data, we also discuss the known functional changes induced by Cr(VI) in photosynthesis and in glutamine synthetase activity. 相似文献