Improvement of endophytic Azospirillum colonization by co-inoculation with Cellulomonas Uda ATCC 491

• Main Authors: Mohammad Javad Mehdipour Moghaddam, Giti Emtiazi, Majid Bouzari
• Format: Article
• Language: English
• Published: University of Isfahan 2014-04-01
• Series: Biological Journal of Microorganism
• Subjects: Azospirillum; Cellulase; Chemotaxis; Auxin; Colonization; Co-inoculation; Cellulomonas
• Online Access: http://uijs.ui.ac.ir/bjm/browse.php?a_id=116&slc_lang=en&sid=1&ftxt=1

Introduction: Most of the plant growth promoting rhizobacteria (PGPR) such as Azopirillum if accompanied with strong cellulase producing bacteria such as Cellulomonas, their colonization may be increased and their host plants growth improved. Materials and methods: Six endophytic Azospirilla which isolated from three rice and three wheat cultivars and also one strain from commercial biofertilizer (Green Biotech Co.), identified by biochemical tests and 16S rDNA analysis and were studied on the basis of cellulase, pectinase and auxin production and also their chemotaxis toward rice and wheat cultivars exudates was investigated. Two cellulase positive (A5 and A6) and two negative (A2 and A3) strains were selected and their interaction with C. uda ATCC 491 on auxin production and colonization on roots were compared. Results: This study showed that none of the strains had pectinase activity, but the strain isolated from rice had more Carboxy methyl cellulase (CMCase) activity. Selected isolates and C. uda ATCC 491 showed chemotaxis toward roots exudates. In most of the isolates, rate of auxin production increased by coculture with C. uda ATCC 491. Also, it was determined that C. uda ATCC 491 promoted the colonization of Azospirillum without or with cellulase activity on rice and wheat roots, respectively. Discussion and conclusion: Co-inoculation Azospirillum with C. uda ATCC 491 improves plant root system due to stimulation or additive effect of auxin production and cellulase activity, followed by more uptakes of water and minerals by roots. Also, it raises the number of colonization niches for useful bacteria such as Azospirillum and finally quantitative and qualitative plant parameters.