Jigjiddorj Enkh-Amgalan scite author profile

Endophytic fungi in symbiotic association with their host plant are well known to improve plant growth and reduce the adverse effects of both biotic and abiotic stresses. Therefore, fungal endophytes are beginning to receive increased attention in an effort to find growth-promoting strains that could be applied to enhance crop yield and quality. In our study, the plant growth-promoting activities of endophytic fungi isolated from various parts of Sophora flavescens (a medicinally important plant in Mongolia and China) have been revealed and investigated. Fungal isolates were identified using molecular taxonomical methods, while their plant growth-promoting abilities were evaluated in plate assays. Altogether, 15 strains were isolated, representing the genera Alternaria, Didymella, Fusarium and Xylogone. Five of the isolates possessed phosphate solubilization activities and twelve secreted siderophores, while all of them were able to produce indoleacetic acid (IAA) in the presence or absence of tryptophan. The endogenous and exogenous accumulation of IAA were also monitored in liquid cultures using the HPLC-MS/MS technique to refine the plate assay results. Furthermore, for the highest IAA producer fungi, the effects of their extracts were also examined in plant bioassays. In these tests, the primary root lengths of the model Arabidopsis thaliana were increased in several cases, while the biomasses were significantly lower than the control IAA treatment. Significant alterations have also been detected in the photosynthetic pigment (chlorophyll-a, -b and carotenoids) content due to the fungal extract treatments, but these changes did not show any specific trends.

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Cloning and characterization of a novel gene involved in nitrogen fixation in Heliobacterium chlorum: a possible regulatory gene

Enkh-Amgalan

Kawasaki

Oh‐oka

et al. 2006

Arch Microbiol

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In the present study, the transcriptional properties of the nitrogen fixation gene cluster of Hbt. chlorum, a strictly anaerobic, gram-positive, phototrophic bacterium, were explored. The cluster consisted of eleven genes in the same orientation in the order nifI ( 1 ) , nifI ( 2 ) , nifH, nifD, nifK, nifE, nifN, nifX, fdx, nifB, and nifV as detected previously. An open reading frame (orf1) preceding these genes was revealed by further cloning. The orf1 was co-transcribed with downstream nif genes in a single polycistronic transcript, the transcription start site (TSS) was located upstream of the orf1, and a putative promoter was identified 10 bp preceding the TSS. Unlike most diazotrophs which have a sigma(54)-dependent -24/-12 promoter, the promoter was similar to the -35/-10 E. coli promoter. The orf1 had no nif homolog in DNA databases, and the highest level of identity (27% at amino acid level) was found with hutP, a positive regulatory gene of the histidine utilization (hut) operon in B. subtilis. Analogous to the regulatory mechanism of the hut operon in B. subtilis, it is conceivable that the orf1 product interacts with the terminator-like structure located downstream of the orf1 during N-deficient condition and prevents transcription termination; thus, the transcription continues into the nif structural genes.

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Molecular evolution of the nif gene cluster carrying nifI1 and nifI2 genes in the Gram-positive phototrophic bacterium Heliobacterium chlorum

Enkh-Amgalan

Kawasaki

Seki

2006

INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLO

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A major nif cluster was detected in the strictly anaerobic, Gram-positive phototrophic bacterium Heliobacterium chlorum. The cluster consisted of 11 genes arranged within a 10 kb region in the order nifI 1 , nifI 2 , nifH, nifD, nifK, nifE, nifN, nifX, fdx, nifB and nifV. The phylogenetic position of Hbt. chlorum was the same in the NifH, NifD, NifK, NifE and NifN trees; Hbt. chlorum formed a cluster with Desulfitobacterium hafniense, the closest neighbour of heliobacteria based on the 16S rRNA phylogeny, and two species of the genus Geobacter belonging to the Deltaproteobacteria. Two nifI genes, known to occur in the nif clusters of methanogenic archaea between nifH and nifD, were found upstream of the nifH gene of Hbt. chlorum. The organization of the nif operon and the phylogeny of individual and concatenated gene products showed that the Hbt. chlorum nif operon carrying nifI genes upstream of the nifH gene was an intermediate between the nif operon with nifI downstream of nifH (group II and III of the nitrogenase classification) and the nif operon lacking nifI (group I). Thus, the phylogenetic position of Hbt. chlorum nitrogenase may reflect an evolutionary stage of a divergence of the two nitrogenase groups, with group I consisting of the aerobic diazotrophs and group II consisting of strictly anaerobic prokaryotes.

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NifH and NifD sequences of heliobacteria: a new lineage in the nitrogenase phylogeny

Enkh-Amgalan

Kawasaki

Seki

2005

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We determined almost complete nifH and nifD genes from representatives of all recognized genera of heliobacteria, the strictly anaerobic phototrophs belonging to the low GC gram-positive bacteria. The heliobacterial sequences formed a highly supported monophyletic group that is clearly distinct from any known diazotrophs, in both NifH and NifD trees. According to the classification of nitrogenase genes in four major clusters, the clade of heliobacterial sequences belonged to cluster I and did not cluster with any of the Clostridium (cluster III) or Paenibacillus (cluster I) species, the close neighbors of heliobacteria based on the 16S rRNA phylogeny. One partial anfH or alternative nitrogenase sequence was detected from Heliobacterium gestii. Although Heliophilum fasciatum is known to fix nitrogen based on the acetylene reduction test, nifH and/or nifD genes were not detected by either the PCR amplification or Southern hybridization methods.

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