tailieunhanh - báo cáo khoa học: " Distinct changes in soybean xylem sap proteome in response to pathogenic and symbiotic microbe interactions"

Tuyển tập báo cáo các nghiên cứu khoa học quốc tế ngành y học dành cho các bạn tham khảo đề tài: Distinct changes in soybean xylem sap proteome in response to pathogenic and symbiotic microbe interactions | BMC Plant Biology BioMed Central Open Access Research article Distinct changes in soybean xylem sap proteome in response to pathogenic and symbiotic microbe interactions Senthil Subramanian 1 2 Un-Haing Cho1 3 Carol Keyes1 4 and Oliver Yu 1 Address 1Donald Danforth Plant Science Center St Louis MO 63132 USA 2Plant Science Department South Dakota State University Brookings SD 57007 USA 3Changwon National University Changwon Kyoungnam 641-773 Korea and 4Maryville University St Louis MO 63141 USA Email Senthil Subramanian - Un-Haing Cho - uhcho@ Carol Keyes - ckeyes@ Oliver Yu - oyu@ Corresponding authors Published 21 September 2009 Received 8 April 2009 BMC Plant Biology 2009 9 119 doi 1471-2229-9-119 Accepted 21 September 2009 This article is available from http 1471-2229 9 1 19 2009 Subramanian et al licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License http licenses by which permits unrestricted use distribution and reproduction in any medium provided the original work is properly cited. Abstract Background Plant systemic signaling characterized by the long distance transport of molecules across plant organs involves the xylem and phloem conduits. Root-microbe interactions generate systemic signals that are transported to aerial organs via the xylem sap. We analyzed the xylem sap proteome of soybean seedlings in response to pathogenic and symbiotic interactions to identify systemic signaling proteins and other differentially expressed proteins. Results We observed the increase of a serine protease and peroxidase in the xylem sap in response to Phytophthora sojae elicitor treatment. The high molecular weight fraction of soybean xylem sap was found to promote the growth of Neurospora crassa in vitro at lower concentrations and inhibit growth at higher .

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