Relationship of Cob characters with Grain Morphology in Maize (Zea mays,Poaceae)

Twenty varieties of maize (Zea mays, Poaceae) were studied through 11 attributes in three to seven randomly selected plants of each variety with a view to understanding the effect of cob characters on technologically desirable grain qualities. Canonical discriminant analysis showed thatproductivity (determined by total grain weight/cob, cob diameter and average grain weight) was the most discriminating among varieties followed by round grains fraction (represented by whole top and middle flat grains, number of rows and grain count/surface area), middle flat grains (composed of middle flat grains and grain count/surface area) and shape of the cob (determined by shape index, total grain weight/cob and cob diameter), which accounted for 35.1, 18.3, 12.2, and 9.8% of the total variance, respectively. In the light of these results, tentative norms have been suggested to evolve maize varieties of superior technological properties and yet retain high productivity. A cylindrical cob of large diameter with highest number of grains/area and smallest possible number of rows together constituted an ideal combination to achieve the objectives. Such possibilities in the light of available information are discussed.     

Plant growth promotion and suppression of charcoal‐rot fungus (Macrophomina phaseolina) in velvet bean (Mucuna pruriens L.) by root nodule bacteria

Root‐nodulating bacteria are intimate associates of legumes. From a pool of rhizobia isolated from root nodules of Mucuna pruriens (Velvet bean/Kaunch), RMP66 and BMP17 were found to be capable of promoting siderophore and IAA production and phosphate solubilization (insoluble tri‐calcium). Both symbionts were studied further to determine their abilities to promote plant growth and to control root‐rot in Mucuna pruriens caused by the pathogenic plant fungus Macrophomina phaseolina. RMP66 and BMP17 were selected based on their excellent inhibitory activities against M. phaseolina (by 78% and 71%, respectively) in dual culture and in agar‐well assays using cell‐free culture filtrate (CFCF) (by 76% and 62%, respectively). Both strains inhibited fungal growth to a greater extent in iron‐deficient medium (51% and 69%) than in iron‐supplemented medium (37% and 0%), respectively. CFCFs of RMP66 and BMP17 obtained from Pikovskaya's broth and tryptophan‐amended YEM broth inhibited fungal growth by 80%‐55% and 70%‐43%, respectively, and were identified as Sinorhizobium meliloti RMP66 and Bradyrhizobium diazoefficiens BMP17 by 16S rDNA sequencing. Centrifuged and pelleted cells harvested from exponentially grown cultures of S. meliloti RMP66 and B. diazoefficiens BMP17 were used to bacterize seeds of M. pruriens, which then showed enhanced seed germination (by up to 17% and 12%, respectively), and subsequent increases in other plant growth parameters in field trials. Considerable increases in seedling vigour indices (62%: 53% and 110%: 130%) and biomass (8%: 13% and 25%: 28%) were also observed for bacterial treatments. Tn5‐mediated antibiotic‐resistant marker strains showed enhanced nodule occupancy by up to 72% and 68%, respectively. This study describes a multifunctional legume nodule rhizobia that could be utilized in multicropping systems under different agroclimatic conditions as a bioinoculant and alternative to fertilizers.     

Rapid In Vitro Propagation of East Indian Rosewood (Dalbergia latifolia Roxb.) through High Frequency Shoot Proliferation from Cotyledonary Nodes

An efficient protocol is described for large scale in vitro propagation of east Indian rosewood (Dalbergia latifolia Roxb.) using cotyledonary nodes derived from axenic seedlings. Of the four different cytokinins tested, BA was most effective in inducing multiple shoot buds in the explants. High frequency shoot proliferation (93%) coupled with maximum number of shoot formation (10-12 shoots/explant) was recorded on Murashige and Skoog’s medium supplemented with 2.0 mg/l BA. The frequency of shoot proliferation declined at higher levels of cytokinins. Shoot culture was multiplied by subculturing the original cotyledonary node on a fresh shoot multiplication medium each time aHer excising the newly formed shoots. Shoots obtained from each passage were multiplied further as nodal explants and each node produced 3-4 shoots. In two months from a single cotyledonary node, about 90 shoots were obtained. Rooting was induced in 72% of the regenerated shoots on half-strength MS containing IAA, IBA and IPA each at 1.0 mg/l. Rooted plantlets were hardened off and eventually established in soil.     

Purification and characterization of a novel thermo-active amidase from Geobacillus subterraneus RL-2a

A thermostable amidase produced by Geobacillus subterraneus RL-2a was purified to homogeneity, with a yield of 9.54 % and a specific activity of 48.66 U mg^?1. The molecular weight of the native enzyme was estimated to be 111 kDa. The amidase of G. subterraneus RL-2a is constitutive in nature, active at a broad range of pH (4.5–11.5) and temperature (40–90 °C) and has a half-life of 5 h and 54 min at 70 °C. Inhibition of enzyme activity was observed in the presence of metal ions, such as Co²⁺, Hg²⁺, Cu²⁺, Ni²⁺, and thiol reagents. The presence of mid-chain aliphatic and amino acid amides enhances the enzymatic activity. The acyl transferase activity was detected with propionamide, butyramide and nicotinamide. The enzyme showed moderate stability toward toluene, carbon tetrachloride, benzene, ethylene glycol except acetone, ethanol, butanol, propanol and dimethyl sulfoxide. The K _m and V _max of the purified amidase with nicotinamide were 6.02 ± 0.56 mM and 132.6 ± 4.4 μmol min^?1 mg^?1 protein by analyzing Michaelis–Menten kinetics. The results of MALDI-TOF analysis indicated that this amidase has homology with the amidase of Geobacillus sp. C56-T3 (gi|297530427). It is the first reported wide-spectrum thermostable amidase from a thermophilic G. subterraneus.     

Primary structure of hemoglobin β-chain fromColumba livia (gray wild pigeon)

Primary structure of -chain of pigeon is presented. It was determined by amino acid sequence analysis of intact -chain and its peptides obtained by the enzymatic and chemical cleavage. Comparison of amino acid sequence of the chain with other available data shows 14 Ile, 61 Lys, and 113 Ile as residues specific to pigeon. One important replacement at ₁₁ contact is 55 MetSer.     

Nanotechnology a novel approach to enhance crop productivity

Nanobiotechnology provides novel set of tools to manipulate and enhance crop production using nanoparticles, nanofibres, nanoemulsions, and nanocapsules. Nanomaterials provide a platform to deliver agrochemicals and various macromolecules needed for plant growth enhancement and resistance to stresses. Smart delivery of agrochemicals increases the yield by optimizing water and nutrient conditions. Another added advantage is controlled release and site-directed delivery of agrochemicals. Further enhancement in quality and quantity in agriculture can be achieved by nanoparticle-mediated gene transformation and delivery of macromolecules that induces gene expression in plants. Various types of nanomaterials have been tested so far and the results have been promising in terms of productivity and quality enhancement.     

Reductive dehalogenation mediated initiation of aerobic degradation of 2-chloro-4-nitrophenol (2C4NP) by Burkholderia sp. strain SJ98

Burkholderia sp. strain SJ98 (DSM 23195) was previously isolated and characterized for degradation and co-metabolic transformation of a number nitroaromatic compounds. In the present study, we evaluated its metabolic activity on chlorinated nitroaromatic compounds (CNACs). Results obtained during this study revealed that strain SJ98 can degrade 2-chloro-4-nitrophenol (2C4NP) and utilize it as sole source of carbon, nitrogen, and energy under aerobic conditions. The cells of strain SJ98 removed 2C4NP from the growth medium with sequential release of nearly stoichiometric amounts of chloride and nitrite in culture supernatant. Under aerobic degradation conditions, 2C4NP was transformed into the first intermediate that was identified as p-nitrophenol by high-performance liquid chromatography, LCMS-TOF, and GC-MS analyses. This transformation clearly establishes that the degradation of 2C4NP by strain SJ98 is initiated by "reductive dehalogenation"; an initiation mechanism that has not been previously reported for microbial degradation of CNAC under aerobic conditions.     

Stimulatory Effect of Partial Desiccation on Plant Regeneration in Indica Rice (Oryza sativa L)

A simple in vitro protocol was established for high frequency plant regeneration via organogenesis and somatic embryogenesis from the callus cultures derived from immature inflorescence segments of indica rice (Oryza sativa L cvs Safari-17 and Kasturi). Embryogenic and nodular calli were initiated on MSB medium supplemented with 2, 4-D and sucrose (3.0%, w/v). Somatic embryogenesis occurred after transfer of embryogenic calli to MSB medium containing 2.25 μM 2,4-D, 2.2 μM BAP, 2.9 μM thiamine HCl and 244.86 μM L-tryptophan. Plantlet/shoot regeneration occurred after transfer of embryogenic calli to MSB medium containing 17.6 μM BAP and 1.12 μM 2,4-D. Partial desiccation (up to 12, 24, 48, 72 and 96 h) of embryogenic calli prior to transfer to regeneration medium stimulated regeneration frequency. Highly significant (P<0.001) difference was observed for regeneration frequency and average number of plantlets/shoots regenerated per callus in partially desiccated calli in comparison to non-dehydrated calli. Regeneration frequency increased from 33.3% to 80% after 24 h of desiccation treatment to callus cultures of cv. Safari-17, and from 46.7% to 93.3% after 48 h of desiccation treatment to callus tissues of cv. Kasturi. Regenerated shoots were rooted on MSB medium supplemented with 4.9 μM IBA. Plants with well-developed roots were transferred to pots where they grew well and attained maturity.