Abstract
Rhizobium bacteria was isolated from the root nodules of Medicago sativa plants and, based on morphological and some biochemical properties, it was characterized as Sinorhizobium meliloti. We studied the ability of this isolate, as well as that of Agrobacterium rhizogenes R1601, to produce the auxin indole acetic acid (IAA). For purposes of control, both isolates, in the absence of tryptophan-L, were similarly tested. The identification of IAA was achieved by checking the colour reactions with Salkowski’s reagent. Low amounts (23, 69 and 26,77 µɡ/ml) of IAA were produced by S.meliloti and A.rhizogenes after 24 and 72 hours of incubation, respectively. S.meliloti was distinguished by the high production of this auxin (612µg/ml) when adding 0.1% tryptophan to the growth medium (YEM), as compared to the amount of its production by the other bacteria. Therefore, this isolation was used to determine the highest production of IAA at optimal conditions, which reached to 553,550 and 610,662 µg/ml in liquid YEM medium supported with tryptophan-L (both at 0.5 and 1.0%) and a medium supported with glucose and lactose sugar (10%), after 72 hours of incubation, respectively. The 72-hour incubation period was better than that of 24-hour in obtaining an additional amount of IAA, which ranged between 0.6 and 0.7g/l. A spot of IAA produced by rhizobium bacteria was created corresponding to the standard spot of IAA in the thin layer chromatography (TLC) detection experiment.
Highlights
indole acetic acid (IAA) is one of the plant growth hormones that fall into the group of auxins [1]
The results reveal that the isolated bacteria are S. meliloti, with the ability to form root nodules on seedlings of alfalfa plants after being re-inoculated
As shown in Figure-1, a colored spot of IAA produced by S.meliloti (B) was identical to the standard IAA spot (A) on the thin layer chromatography (TLC) plate, and the retention factor (Rf) value for each was 0.61
Summary
IAA is one of the plant growth hormones that fall into the group of auxins [1]. The researchers increased their interest in it due to its physiological significance to the plant as it controls the growth and division of cells as well as the differentiation of tissues into plant organs such as roots and fruits [2]. Auxins, especially indole acetic acid, are produced from the amino acid tryptophan by this bacteria during its symbiotic relationship with the legume plant that is specialized in bacterial attraction by roots exudates [4].
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