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엽록체 DNA 염기서열에 근거한 물여뀌 종집단(마디풀과)의 분류학적 연구
Gao Yaqian,Gauri Shankar Bhandari,박진희,박종욱 한국식물분류학회 2013 식물 분류학회지 Vol.43 No.1
마디풀과의 물여뀌 종집단(Polygonum amphibium L. complex)은 육상 및 수중 환경 모두에 서식할 수 있는 분류군으로, 서식 환경에 따라 다양한 형태 변이를 나타내어 현재까지 많은 분류군들이 기재되어 왔다. 아시아 및 북미산 107개체로부터 측정한 11개 형태형질을 사용하여 주성분분석을 수행한 결과, 본 종집단에서 존재하는 수생형 및 육생형 개체들은 모든 지역집단에서 잎의 형태 및 크기, 엽병의 길이 등에 의해 서로 구분되는 것으로 나타났다. 그러나, 동일 개체군 또는 동일 지역내에서 채집된 수생형과 육생형 개체들은 엽록체 DNA 4개 구간(matK, psbA-trnH IGS, rbcL-accD IGS, trnL-trnF)에서 완전히 동일한 염기서열을 공유하는 것으로 밝혀져 유전적으로는 분기되지 않은 것으로 추정되며, 따라서 본 종집단에서 나타나는 생육형간의 형태적 차이는 서식지 환경에 따른 개체 변이인 것으로 판단된다. 형태분석 및 엽록체 4구간 염기서열 유합자료의 계통분석 결과, 한국, 일본, 중국, 몽골, 극동 러시아 지역 등에 분포하는 아시아산 개체들은 북미지역집단 개체들 및 유럽의 영국산 개체와 형태적, 유전적으로 뚜렷이 구분되는 것으로 밝혀졌으며, 따라서 한반도산 개체들을 포함하는 아시아 지역집단 개체들은 P. amphibium의 하나의 변종(P. amphibium var. amurense Korsh.)으로 인식하는 것이 타당한 것으로 판단된다. The Polygonum amphibium complex (Poygonaceae) is a highly polymorphic taxon that can grow in aquatic environments as well as in moist terrestrial habitats. Aquatic and terrestrial plants of the P. amphibium complex vary significantly in morphology and exhibit very complicated patterns of morphological variation, resulting in the description of numerous infra-specific taxa. Principal components analysis of 107 individuals of the P. amphibium complex from Asia and North America using 11 morphological characters showed that the aquatic plants can be discerned from the terrestrial plants by leaf size, shape, and petiole length. In contrast, both aquatic and terrestrial plants collected from the same population or locality shared identical sequences in the matK, psbA-trnH IGS, rbcL-accD IGS and trnL-trnF regions of the chloroplast DNA (cpDNA), suggesting that aquatic and terrestrial forms of the P. amphibium complex are not genetically diverged; morphological differences between the two forms are probably due to the differences in environmental conditions of the habitats. In addition, results from the morphological analysis and the maximum parsimony analysis of the cpDNA data set revealed that the plants from Asia including Korea, Japan, China, Mongolia and Russia Far East are diverged from those in North America and Europe, suggesting that the Asian populations should be recognized as a distinct variety, P. amphibium var. amurense Korsh.
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Trichoderma biodiversity in major ecological systems of China
Kai Dou,Jinxin Gao,Chulong Zhang,Hetong Yang,Xiliang Jiang,Jishun Li,Yaqian Li,Wei Wang,Hongquan Xian,Shigui Li,Yan Liu,Jindong Hu,Jie Chen 한국미생물학회 2019 The journal of microbiology Vol.57 No.8
An investigation of Trichoderma biodiversity involving a large-scale environmental gradient was conducted to understand the Trichoderma distribution in China. A total of 3,999 isolates were isolated from forestry, grassland, wetland and agriculture ecosystems, and 50 species were identified based on morphological characteristics and sequence analysis of genetic markers. Trichoderma harzianum showed the largest proportion of isolates and the most extensive distribution. Hypocrea semiorbis, T. epimyces, T. konilangbra, T. piluliferum, T. pleurotum, T. pubescens, T. strictipilis, T. hunua, T. oblongisporum and an unidentified species, Trichoderma sp. MA 3642, were first reported in China. Most Trichoderma species were distributed in Jilin and Heilongjiang Provinces in northeast China and the fewest were distributed in Qinghai Province. Based on the division of ecological and geographic factors, forestry ecosystems and low-altitude regions have the greatest species biodiversity of Trichoderma.
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Ze-Hua Zhao,Feng-Zhi Xin,Yaqian Xue,Zhimin Hu,Yamei Han,Fengguang Ma,Da Zhou,Xiao-Lin Liu,Aoyuan Cui,Zhengshuai Liu,Yuxiao Liu,Jing Gao,Qin Pan,Yu Li,Jian-Gao Fan 생화학분자생물학회 2019 Experimental and molecular medicine Vol.51 No.-
Microbial metabolites have emerged as critical components that mediate the metabolic effects of the gut microbiota. Here, we show that indole-3-propionic acid (IPA), a tryptophan metabolite produced by gut bacteria, is a potent anti-non-alcoholic steatohepatitis (NASH) microbial metabolite. Here, we demonstrate that administration of IPA modulates the microbiota composition in the gut and inhibits microbial dysbiosis in rats fed a high-fat diet. IPA induces the expression of tight junction proteins, such as ZO-1 and Occludin, and maintains intestinal epithelium homeostasis, leading to a reduction in plasma endotoxin levels. Interestingly, IPA inhibits NF-κB signaling and reduces the levels of proinflammatory cytokines, such as TNFα, IL-1β, and IL-6, in response to endotoxin in macrophages to repress hepatic inflammation and liver injury. Moreover, IPA is sufficient to inhibit the expression of fibrogenic and collagen genes and attenuate diet-induced NASH phenotypes. The beneficial effects of IPA on the liver are likely mediated through inhibiting the production of endotoxin in the gut. These findings suggest a protective role of IPA in the control of metabolism and uncover the gut microbiome and liver cross-talk in regulating the intestinal microenvironment and liver pathology via a novel dietary nutrient metabolite. IPA may provide a new therapeutic strategy for treating NASH.
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