Munirah Tharek scite author profile

An endophytic Escherichia coli USML2 originally isolated from the inner part of an oil palm (Elaeis guineensis Jacq.) leaf tissue was inoculated to rice seedlings to investigate its ability in colonising plant inner tissues and promoting growth. Infection of E. coli USML2 was initiated by colonisation on the root surface, invasion of the interior root system followed by endophytic spreading. Inoculation of E. coli USML2 in the rice rhizosphere zone resulted in a significant increase in leaf numbers (33.3%), chlorophyll content (33.3%), shoot height (34.8%) and plant dry weight (90.4%) of 42 days old rice seedlings as compared to the control. These findings also demonstrated the ability of E. coli USML2 to spread endophytically which serves as a beneficial strategy for the bacterium to colonise the host plant and gain protection against adverse soil conditions. The genome of E. coli USML2 had also revealed predicted genes essential for endophytic bacterial colonisation and plant growth promotion which further proven potentials of E. coli USML2 as Plant Growth Promoting Endophyte (PGPE).

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Ascending Endophytic Migration of Locally Isolated Diazotroph, Enterobacter sp. Strain USML2 in Rice

Tharek¹,

Dzulaikha²,

Salwani³

et al. 2011

Biotechnology

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Application of Bacterial Endophytes to Control Bacterial Leaf Blight Disease and Promote Rice Growth

Ooi¹,

Nor

Furusawa

et al. 2022

Plant Pathol J

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Xanthomonas oryzae pv. oryzae (Xoo) causes bacterial leaf blight (BLB) disease in rice (Oryza sativa L.) and it is among the most destructive pathogen responsible for severe yield losses. Potential bacterial biocontrol agents (BCAs) with plant growth promotion (PGP) abilities can be applied to better manage the BLB disease and increase crop yield, compared to current conventional practices. Thus, this study aimed to isolate, screen, and identify potential BCAs with PGP abilities. Isolation of the BCAs was performed from internal plant tissues and rhizosphere soil of healthy and Xoo-infected rice. A total of 18 bacterial strains were successfully screened for in vitro antagonistic ability against Xoo, siderophore production and PGP potentials. Among the bacterial strains, 3 endophytes, Bacillus sp. strain USML8, Bacillus sp. strain USML9, and Bacillus sp. strain USMR1 which were isolated from diseased plants harbored the BCA traits and significantly reduced leaf blight severity of rice. Simultaneously, the endophytic BCAs also possessed plant growth promoting traits and were able to enhance rice growth. Application of the selected endophytes (BCAs-PGP) at the early growth stage of rice exhibited potential in suppressing BLB disease and promoting rice growth.

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Endophytes as Potential Biostimulants to Enhance Plant Growth for Promoting Sustainable Agriculture

Tharek¹,

Abdullahi²,

Mia³

et al. 2022

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Munirah Tharek

Whole-Genome Sequence of Endophytic Plant Growth-Promoting Escherichia coli USML2

Plant Growth Promoting Potentials of Beneficial Endophytic Escherichia coli USML2 in Association with Rice Seedlings

Ascending Endophytic Migration of Locally Isolated Diazotroph, Enterobacter sp. Strain USML2 in Rice

Application of Bacterial Endophytes to Control Bacterial Leaf Blight Disease and Promote Rice Growth

Endophytes as Potential Biostimulants to Enhance Plant Growth for Promoting Sustainable Agriculture

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