[On the origin of Yersinia pestis, a causative agent of the plague: A concept of population-genetic macroevolution in transitive environment].

Pub Date : 2015-07-01
V V Suntsov
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引用次数: 0

Abstract

An ecological scenario is proposed for the origin of causative agent of the plague (the bacterium Yersenia pestis) from the clone of pseudotuberculous microbe of the first serotype Y. pseudotuberculosis O:1b. Disclosed are the conditions of gradual intrusion of psychrophile saprozoonosis ancestor into the blood of the primary host, Mongolian tarbagan marmot Marmota sibirica. As an inductor of speciation acted the Sartan cooling that occurred in the end of late Pleistocene under conditions of arid ultra-continental climate in Central Asia. Soil freezing down to the level of hibernating chambers in marmot burrows initiated the transition of marmot flea, Oropsylla silantiewi, larvae to optional hemophagy on the mucous coat inside the mouth cavity of sleeping marmots. In its turn, this promoted the conditions of mass traumatic intrusion of Y pseudotuberculosis into marmots bloodstream from faecal particles getting in their mouth cavity in course of building up a plug in a burrow for hibernating. In marmot populations, the selection of bacteria underwent under conditions of heterothermy with repeated changes of hibernating marmots body temperature within the range of 5-37 degrees C (torpor-euthermy). During the warm season, when pseudotuberculous microbes are totally eliminated from the bloodstream of healthy marmots with body temperature about 37 degrees C, bacteria could survive in fleas' digestive tract in the form of biofilm developing in proventriculus as a so called blockage. Final isolation between ancestral and daughter species was helped by the development of intrapopulation antagonism related with the beginning of full-scale synthesis of bacteriocin pesticin. Population-genetic processes in the "marmot-flea" system have led to a macroevolutionary event, that is, to passage of bacteria in a new ecological niche and adaptive zone that are principally different from those of the ancestor. All the present intraspecies forms of Y. pestis that appeared due to microevolution, have originated with the subspecies Y. pestis tarbagani that has formed in Central Asia during the Sartan cooling.

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[论鼠疫病原体鼠疫耶尔森氏菌的起源:过渡环境中种群遗传宏观进化的概念]。
提出了鼠疫病原(鼠疫耶尔森菌)起源于第一血清型假结核耶尔森菌O:1b克隆的生态学假说。揭示了嗜寒性腐殖人畜共患病祖先逐渐侵入主要宿主蒙古土拨鼠西伯利亚土拨鼠血液的条件。在中亚干旱的超大陆气候条件下,晚更新世末发生的沙坦冷却是物种形成的诱因。土壤冻结到土拨鼠洞穴冬眠室的水平,导致土拨鼠跳蚤(Oropsylla silantiewi)幼虫在睡眠的土拨鼠口腔内的粘膜上选择性地噬血。反过来,这又促进了假Y型结核杆菌大量侵入土拨鼠血液的条件。土拨鼠在冬眠的洞穴中建立一个堵塞的过程中,粪便颗粒进入它们的口腔,从而侵入它们的血液。在土拨鼠种群中,细菌的选择在异温条件下进行,冬眠时土拨鼠体温在5 ~ 37℃范围内反复变化(冬眠-恒温)。在温暖的季节,当体温约为37摄氏度的健康土拨鼠血液中的假结核微生物完全被清除时,细菌可以在跳蚤的消化道中以生物膜的形式存活,在前心室中形成所谓的阻塞。随着细菌素和杀虫剂开始全面合成,种群内拮抗作用的发展有助于祖先种和子种之间的最终分离。“土拨鼠-跳蚤”系统的种群遗传过程导致了一个宏观进化事件,即细菌在一个新的生态位和适应区中传播,这些生态位和适应区与祖先的生态位和适应区主要不同。目前由于微进化而出现的所有种内鼠疫杆菌形式都起源于萨坦冷却期间在中亚形成的塔尔巴格尼鼠疫杆菌亚种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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