Phytohormone Production by the Endophyte TS3 Increases Plant Yield and Alleviates Salt Stress.

Endophytic bacteria can be used to overcome the effect of salinity stress and promote plant growth and nutrient uptake. colonizes a wide range of habitats due to survival in extreme environments and unique physiological characteristics, such as a high tolerance for salt, heavy metals, and ultraviolet and gamma radiations. The aim of our study was to examine the salt resistance of the endophytic strain TS3 and its ability to produce phytohormones and verify its effect on plant yield in field trials and the alleviation of salt stress in pot experiments.

Draft Genome Sequence of the Tomato Stem Endophyte Bacillus safensis TS3.

Tomato stem endophyte Bacillus safensis TS3 was isolated from surface-sterilized stems of greenhouse tomato plants. Here, we sequenced the complete genome of this strain to understand the molecular mechanisms underlying its beneficial activities.

Draft Genome Sequence of Plant Growth-Promoting Bacillus velezensis BS89.

The plant growth-promoting bacterium BS89 was isolated from the rhizosphere of winter wheat. Strain BS89 has the ability to promote plant growth and produce a mix of auxins and vitamins. Here, we sequenced the complete genome of this strain to understand the molecular mechanisms underlying its beneficial activities.

[Endophytic Bacteria in Microbial Drugs that Improve Plant Development (Review)].

In this review data on the possibility of using endophytic bacteria for improving crop yields and quality are discussed.