Home Itens selecionados Provedores de dados OAI Créditos Sobre Ajuda

			Busca avançada
	Provedor de dados ArchiMer (13) BJM (6) OAK (2) Anais da ABC (AABC) (2) BABT (2) Rev. Microbiol. (1) Genet. Mol. Biol. (1) Mais... Autor Colliec-jouault, Sylvia (6) Sinquin, Corinne (6) Guezennec, Jean (4) Delbarre-ladrat, Christine (3) Zykwinska, Agata (3) Bonnetot, Sandrine (2) Fukuda, Kenji (2) Leo, Fiame (2) Marchand, Laetitia (2) Motoshima, Hidemasa (2) Petit, Anne-celine (2) Ratiskol, Jacqueline (2) Simon-colin, Christelle (2) Urashima, Tadasu (2) 浦島, 匡 (2) 福田, 健二 (2) Akca,Gülcin (1) Amir, H. (1) Arai, Ikichi (1) Asakuma, Sadaki (1) Mais... Palavra-chave Exopolysaccharide (27) Depolymerization (3) Antioxidant activity (2) Biosynthesis (2) Glycosaminoglycan (2) Lactic acid bacteria (2) Activité anticoagulante (1) Adhesion (1) Anticoagulant activity (1) Antimicrobial (1) BSiO(2) dissolution (1) Bactéries marines (1) Bactériophages marins (1) Basidiomycetes (1) Bioactivity (1) Biofilm (1) Biofilms (1) Biogenic silica (1) Biomass (1) Biomimetic (1) Mais... Tipo do documento Text (13) Info:eu-repo/semantics/article (12) Ano 2019 (2) 2018 (3) 2017 (1) 2015 (2) 2014 (2) 2013 (2) 2012 (2) 2011 (5) 2010 (1) 2009 (1) 2007 (2) 2006 (1) 2005 (1) 2004 (1) 1999 (1) Mais... País France (13) Brazil (12) Japan (2) Idioma Inglês (25) Francês (2)		Registro completo Provedor de dados:  BJM País:  Brazil Título:  Bacterial exopolysaccharide and biofilm formation stimulate chickpea growth and soil aggregation under salt stress Autores:  Qurashi,Aisha Waheed Sabri,Anjum Nasim Data:  2012-09-01 Ano:  2012 Palavras-chave:  Biofilm Cicer arietinum Exopolysaccharide Salinity Soil aggregates Resumo:  To compensate for stress imposed by salinity, biofilm formation and exopolysaccharide production are significant strategies of salt tolerant bacteria to assist metabolism. We hypothesized that two previously isolated salt-tolerant strains Halomonas variabilis (HT1) and Planococcus rifietoensis (RT4) have an ability to improve plant growth, These strains can form biofilm and accumulate exopolysacharides at increasing salt stress. These results showed that bacteria might be involved in developing microbial communities under salt stress and helpful in colonizing of bacterial strains to plant roots and soil particles. Eventually, it can add to the plant growth and soil structure. We investigated the comparative effect of exopolysacharide and biofilm formation in two bacterial strains Halomonas variabilis (HT1) and Planococcus rifietoensis (RT4) in response to varying salt stress. We found that biofilm formation and exopolysaccharide accumulation increased at higher salinity. To check the effect of bacterial inoculation on the plant (Cicer arietinum Var. CM-98) growth and soil aggregation, pot experiment was conducted by growing seedlings under salt stress. Inoculation of both strains increased plant growth at elevated salt stress. Weight of soil aggregates attached with roots and present in soil were added at higher salt concentrations compared to untreated controls. Soil aggregation was higher at plant roots under salinity. These results suggest the feasibility of using above strains in improving plant growth and soil fertility under salinity. Tipo:  Info:eu-repo/semantics/article Idioma:  Inglês Identificador:  http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1517-83822012000300046 Editor:  Sociedade Brasileira de Microbiologia Relação:  10.1590/S1517-83822012000300046 Formato:  text/html Fonte:  Brazilian Journal of Microbiology v.43 n.3 2012 Direitos:  info:eu-repo/semantics/openAccess Fechar

Empresa Brasileira de Pesquisa Agropecuária - Embrapa Todos os direitos reservados, conforme Lei n° 9.610 Política de Privacidade Área restrita		Embrapa Parque Estação Biológica - PqEB s/n° Brasília, DF - Brasil - CEP 70770-901 Fone: (61) 3448-4433 - Fax: (61) 3448-4890 / 3448-4891 SAC: https://www.embrapa.br/fale-conosco