• Corpus ID: 186203421

ISOLATION AND IDENTIFICATION OF CHARCOAL ROT DISEASE CAUSING AGENT IN SESAME ( SESAMUM INDICUM L . ) AND THEIR GROWTH INHIBITION BY BACILLUS METHYLOTROPHICUS KE 2

@inproceedings{Radhakrishnan2017ISOLATIONAI,
  title={ISOLATION AND IDENTIFICATION OF CHARCOAL ROT DISEASE CAUSING AGENT IN SESAME ( SESAMUM INDICUM L . ) AND THEIR GROWTH INHIBITION BY BACILLUS METHYLOTROPHICUS KE 2},
  author={Ramalingam Radhakrishnan and Ramaraj Sathasivam and Rengasamy Lakshminarayanan Rengarajan and Abeer Hashem and Elsayed Fathi Abd\_ Allah},
  year={2017}
}
Seedling emergence and plant growth of sesame (Sesamum indicum L.) are severely affected by charcoal rot disease. The aim of present study was to identify the disease causing agent of charcoal rot in sesame and prevent their growth by bacterial biocontrol agent. The infected stems of sesame plants were collected from the agricultural field and the disease causing agent, Macrophomina phaseolina NICS01 was identified in infected parts of plants by 18 rDNA sequencing and phylogenetic analysis. The… 
pakbs.org

Figures from this paper

23 References

IAA-producing Penicillium sp. NICS01 triggers plant growth and suppresses Fusarium sp.-induced oxidative stress in sesame (Sesamum indicum L.).

Findings suggest that Penicillium sp.

Bacillus amyloliquefaciens subsp. plantarum GR53, a potent biocontrol agent resists Rhizoctonia disease on Chinese cabbage through hormonal and antioxidants regulation

The results obtained from this study suggest that B. plantarum GR53 is an effective biocontrol agent to prevent the damage caused by R. solani in Chinese cabbage plants.

Ecofriendly Management of Charcoal Rot and Fusarium Wilt Diseases in Sesame ( Sesamum indicum L.)

Biological control with application of plant-growth-promoting rhizobacteria (PGPRs) offers a potential non-chemical means for disease management of charcoal rot and wilt of sesame.

Evaluation of bio-control agents for management of dry root rot of chickpea caused by Macrophomina phaseolina

Combining Pseudomonas, Bacillus and Trichoderma strains with organic amendments and micronutrient to enhance suppression of collar and root rot disease in physic nut

Integrated approach for disease management and growth enhancement of Sesamum indicum L. utilizing Azotobacterchroococcum TRA2 and chemical fertilizer

Azotobacterchroococcum TRA2, an isolate of wheat rhizosphere displayed plant growth promoting attributes including indole acetic acid, HCN, siderophore production, solubilization of inorganic

BIO-HERBICIDE EFFECT OF SALT MARSH TOLERANT ENTEROBACTER SP . I3 ON WEED SEED GERMINATION AND SEEDLING GROWTH

Weeds are major challenges in crop cultivation and cause yield loss. The bacteria based bio-herbicides are emerging against chemical herbicides. This study was aimed to explore the bio-herbicide

Microbiological control of soil-borne phytopathogenic fungi with special emphasis on wilt-inducing Fusarium oxysporum.

Current knowledge regarding the interaction between the plant and the protective strains is reviewed in comparison with interactions between the plants and pathogenic strains.

Gibberellins producing Bacillus methylotrophicus KE2 supports plant growth and enhances nutritional metabolites and food values of lettuce.

Plant defense approach of Bacillus subtilis (BERA 71) against Macrophomina phaseolina (Tassi) Goid in mung bean

It is suggested that B. subtilis interaction with plants can modulate the metabolism of pigments, hormones, antioxidants and nutrients against M. phaseolina to induce disease resistance in mung bean.