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491.
Woo Young Bang Sam Woong Kim Seul Gi Kwon Jung Hye Hwang Tae Wan Kim Moon‐Suck Ko In‐Cheol Cho Young Kuk Joo Kwang Keun Cho Jin Young Jeong Chul Wook Kim 《Animal genetics》2013,44(4):463-466
Using a methyl‐DNA immunoprecipitation technique in combination with next‐generation deep sequencing, we conducted comprehensive DNA methylation profiling of liver genomes from three pig breeds: Berkshire, Duroc and Landrace. The profiles revealed that the distribution patterns of methylation signals along the genome are conserved among the three pig breeds. Specifically, many signals in coding genes were found in introns, and most signals in the repetitive elements were identified in non‐long terminal repeat (LTR) retrotransposons such as long and short interspersed repetitive elements, implying a significant association with alternative splicing and expression of retrotransposable elements respectively. Differentially methylated regions among the three pig breeds were identified in the non‐LTR retrotransposons, suggesting that they may lead to differential retrotransposable element activity. Altogether, this study provides advanced swine methylome data and valuable resources for understanding the function of DNA methylation in the evolutionary divergence of different pig breeds. 相似文献
492.
Taeho Kim Jiyeon Kim Soowon Cho Gi‐Sik Min Chungoo Park Ramon A. Carreno Steven A. Nadler Joong‐Ki Park 《Zoologica scripta》2014,43(3):289-303
We determined the complete mitochondrial genome sequence of Rhigonema thysanophora, the first representative of Rhigonematomorpha, and used this sequence along with 57 other nematode species for phylogenetic analyses. The R. thysanophora mtDNA is 15 015 bp and identical to all other chromadorean nematode mtDNAs published to date in that it contains 36 genes (lacking atp8) encoded in the same direction. Phylogenetic analyses of nucleotide and amino acid sequence data for the 12 protein‐coding genes recovered Rhigonematomorpha as the sister group to the heterakoid species, Ascaridia columbae (Ascaridomorpha). The organization of R. thysanophora mtDNA resembles the most common pattern for the Rhabditomorpha+Ascaridomorpha+Diplogasteromorpha clade in gene order, but with some substantial gene rearrangements. This similarity in gene order is in agreement with the sequence‐based analyses that indicate a close relationship between Rhigonematomorpha and Rhabditomorpha+Ascaridomorpha+Diplogasteromorpha. These results are consistent with certain analyses of nuclear SSU rDNA for R. thysanophora and some earlier classification systems that asserted phylogenetic affinity between Rhigonematomorpha and Ascaridomorpha, but inconsistent with morphology‐based phylogenetic hypotheses that suggested a close (taxonomic) relationship between rhigonematomorphs and oxyuridomorphs (pinworms). These observations must be tempered by noting that few rhigonematomorph species have been sequenced and included in phylogenetic analyses, and preliminary studies based on SSU rDNA suggest the group is not monophyletic. Additional mitochondrial genome sequences of rhigonematids are needed to characterize their phylogenetic relationships within Chromadorea, and to increase understanding of mitochondrial genome evolution. 相似文献
493.
494.
Mi Yoon Chung John D. Nason Byung-Yun Sun Myung-Ok Moon Jae Min Chung Chong-Wook Park Myong Gi Chung 《Biochemical Systematics and Ecology》2010
We investigated allozyme variation in 16 populations of the rare monotypic fern Mankyua chejuense and 11 populations of a closely related, widespread fern Botrychium ternatum. Genetic diversity was extremely low in the critically endangered M. chejuense (%Ps = 10%, As = 1.13, and Hes = 0.007) relative to that found in B. ternatum (%Ps = 22.7%, As = 1.23, and Hes = 0.026). We detected homozygous genotypes for alternative alleles at a few loci, which suggests occurrence of intragametophytic self-fertilization. High degrees of population differentiation were found in both M. chejuense (FST = 0.245) and B. ternatum (FST = 0.414).The extremely low levels of genetic diversity in M. chejuense would be attributable to inbreeding coupled with random genetic drift and rarity. In situ protection of habitats of standing populations and ex situ preservation of several populations are suggested for the development of conservation strategies for M. chejuense. 相似文献
495.
The ability to recognize and respond to environmental signals is essential for plants. In response to environmental changes, the status of a plant is transmitted to other plants in the form of signals such as volatiles. Root-associated bacteria trigger the release of plant volatile organic compounds (VOCs). However, the impact of VOCs on the rhizosphere microbial community of neighbouring plants is not well understood. Here, we investigated the effect of VOCs on the rhizosphere microbial community of tomato plants inoculated with a plant growth-promoting rhizobacterium Bacillus amyloliquefaciens strain GB03 and that of their neighbouring plants. Interestingly, high similarity (up to 69%) was detected in the rhizosphere microbial communities of the inoculated and neighbouring plants. Leaves of the tomato plant treated with strain GB03-released β-caryophyllene as a signature VOC, which elicited the release of a large amount of salicylic acid (SA) in the root exudates of a neighbouring tomato seedling. The exposure of tomato leaves to β-caryophyllene resulted in the secretion of SA from the root. Our results demonstrate for the first time that the composition of the rhizosphere microbiota in surrounding plants is synchronized through aerial signals from plants.Subject terms: Microbial ecology, Soil microbiology 相似文献