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Effect of Bradyrhizobium japonicum on Chlorophyll Content, Nodulation, and Plant Growth in Soybean
Roshan Sharma Poudyal,B. N. Prasad 韓國作物學會 2005 Korean journal of crop science Vol.50 No.4
Study on effectiveness of Bradyrhizobium japonicum on soybean [Glycine max (L.) Merr.], local cultivar 'Sathiya' were carried out in the garden soil of Trib-huvan University. Different parameters like nodulation, chlorophyll content in fresh leaves and growth of plant in inoculated and uninoculated plant was studied. Pot experiment was conducted in the green house to evaluate the effectiveness of B. japonicum on soybean. It was observed that B. japonicum inoculation increased the number of nodules, shoot length of plant and total chlorophyll content in fresh leaves of soybean plant. However, root length was decreased in all inoculated plants.
Effect of Bradyrhizobium japonicum on Chlorophyll Content, Nodulation, and Plant Growth in Soybean
Poudyal Roshan Sharma,Prasad B. N. The Korean Society of Crop Science 2005 Korean journal of crop science Vol.50 No.4
Study on effectiveness of Bradyrhizobium japonicum on soybean [Glycine max (L.) Merr.], local cultivar 'Sathiya' were carried out in the garden soil of Trib-huvan University. Different parameters like nodulation, chlorophyll content in fresh leaves and growth of plant in inoculated and uninoculated plant was studied. Pot experiment was conducted in the green house to evaluate the effectiveness of B. japonicum on soybean. It was observed that B. japonicum inoculation increased the number of nodules, shoot length of plant and total chlorophyll content in fresh leaves of soybean plant. However, root length was decreased in all inoculated plants.
Nath, Krishna,Elizabeth, John,Poudyal, Roshan Sharma,Ko, Su Yeon,Lim, Woon Ki,Lee, Choon-Hwan Korean Society of Photoscience 2013 Rapid communication in photoscience Vol.2 No.1
The photosystem II (PSII) light harvesting complex (LHC) consists of a variety of pigment protein complexes which are involved in structural organization and regulation of photosynthetic unit. These LHC proteins encoded by a group of Lhcb genes are essential for the structural integrity of PSII supercomplex, the channeling the excitation energy to the reaction center of PSII and its redistribution to photosystem I by state transitions. Numerous studies with the help of recent technological advancements have enabled a significant progress in our understanding on the structure of PSII-LHCII supercomplexes and their mobilization under various light conditions. Here, we present a mini-review on the latest concepts and models depicting the structure of PSII-LHCII supercomplexes and the role of Lhcb proteins in their supra-molecular organization. Also we will review on the current understandings and remaining problems involved in the mobilization of the supercomplexes during state transitions and during high light illumination for controlling light energy distribution between the two photosystems.
Krishna Nath,이춘환,Susheel Kumar,Roshan Sharma Poudyal,양영남,Rupak Timilsina,박유신,Jayamati Nath,Puneet Singh Chauhan,Bijaya Pant 한국유전학회 2014 Genes & Genomics Vol.36 No.1
Superoxide dismutase (SOD) isoenzymes areessential for scavenging excess reactive oxygen species inliving organisms. So far, expression pattern of SOD isoenzymesgenes along leaf development plus their sub-cellularlocalization and physical interaction network have notyet been clearly elucidated. Using multiple bioinformaticstools, we predicted the sub-cellular localizations of SODisoforms and described their physical interactions in rice. Using in silico approaches, we obtained several evidencesfor existence of seven SOD genes and a SOD copperchaperone gene. Their transcripts were differentiallyexpressed along with different developmental stage of riceleaf. Finally, we performed quantitative real time-polymerasechain reaction (qRT-PCR) to validate in silico differential expression pattern of SOD genes experimentally. Expression of two cytosolic cCuZn-SODs was highduring the whole vegetative stage. Two plastidic Fe-SODswere found and their expression levels were very low andstarted to increase from the late vegetative stage. Theirexpression patterns were very similar to each other, indicatingthe formation of heterodimer. However, theirexpression patterns are different from those for ArabidopsisFe-SODs. The expression of pCuZn-SOD was very high inthe early developmental stage, but qRT-PCR results weredifferent, which remains for further study. From the resultson the differential expression of SOD genes, we canunderstand the role of each SOD gene and even predicttheir role under certain circumstances based on in silicoanalysis.