Richa Salwan

Microbial proteases: detection, production, and genetic improvement.

Microbial proteases are one of the important groups of industrially and commercially produced enzymes contributing approximately 2/3 of all enzyme sales. Though proteases are produced by many microorganisms, emphasis is on the microorganisms producing proteases with desired characters. As demand for novel proteases is increasing day by day the initial screening methods and assays for protease detection are of utmost importance. This review focuses attention on present status of knowledge on the various methods and protocols available for protease screening, detection, and quantification starting from plate assays to spectrophotometric, fluorometric, and nanoparticles based assays. The review will help in making strategies for exploitation of protease resources and improvement of enzymes to obtain more robust proteases.

Phylogenetic diversity of alkaline protease-producing psychrotrophic bacteria from glacier and cold environments of Lahaul and Spiti, India.

The diversity of proteolytic bacteria associated with a glacier and cold environment soils from three different locations in Lahaul and Spiti, India was investigated. Two hundred seventeen bacterial strains were isolated in pure culture. Subsequently these strains were screened for protease‐production and one hundred nine showed protease production. From these protease producing psychrotrophic bacteria twenty showing high enzyme production at low temperature and alkaline pH were characterized and identified. The 16S rRNA phylogenetic analysis revealed that none of the strains showed 100% identity with the validly published species of various genera. Isolates belonged to three classes i.e. Actinobacteria, Gammaproteobacteria and Alphaproteobacteria, and were affiliated with the genera Acinetobacter, Arthrobacter, Mycoplana, Pseudomonas, Pseudoxanthomonas, Serratia and Stenotrophomonas. The optimal growth temperature ranged from 10 to 28 °C and interestingly, high levels of enzyme productions were measured at growth temperatures between 15 and 25 °C, for most of the isolates in plate assay. Most of the isolates were found to produce at least two other hydrolytic enzymes along with protease. The crude protease from one strain was active over broad range of temperature and pH with optima at 30 °C and 7.5, respectively. The protease activity was enhanced by Ca2+, dithiothreitol and β‐mercaptoethanol. While Na+, Hg2+, Zn2+, Mn2+, phenylmethanesulfonyl fluoride and ethylenediaminetetraacetic acid did not showed much effect on protease activity. The results enrich our knowledge on the psychrotrophic bacterial diversity and biogeographic distribution of enzyme producing bacteria in western Himalaya. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

Elucidation of biocontrol mechanisms of Trichoderma harzianum against different plant fungal pathogens: Universal yet host specific response.

In the present study, different transcripts of Trichoderma harzianum ThHP-3 were evaluated for their response against four fungal pathogens Fusarium oxysporum, Colletotrichum capsici, Colletotrichum truncatum and Gloesercospora sorghi using RT-qPCR. The time course study of T. harzianum transcripts related to signal transduction, lytic enzymes, secondary metabolites and various transporters revealed variation in expression against four fungal pathogens. In a broader term, the transcripts were upregulated at various time intervals but the optimum expression of cyp3, abc, nrp, tga1, pmk, ech42 and glh20 varied with respect to host fungi. Additionally, the expression of transcripts related to transporters/cytochromes was also observed against Fusarium oxysporum after 96h whereas transcripts related to secondary metabolites and lytic enzymes showed significant difference in expression against Colletotrichum spp. from 72 to 96h. This is first study on transcriptomic response of T. harzianum against pathogenic fungi which shows their host specific response.

Molecular cloning and characterization of ech46 endochitinase from Trichoderma harzianum.

In the present study, endochitinase of T. harzianum isolate-ThHP3 induced against mycelium of F. oxysporum was cloned, sequenced and characterized. The complete nucleotide sequence contained an ORF of 1293bp corresponding to 430 amino acids with 46kDa molecular weight and theoretical pI 5.59. The precursor protein contained 22 amino acids long signal peptide at N terminus. The domain architecture of endochitinase showed low complexity regions, presence of 1W9P domain specific to cyclopentapeptide and lack of carbohydrate binding modules. The ligand binding site of ech46 endochitinase was constituted by 10 amino acids. The cDNA encoding ech46 endochitinase was ligated into pET28a vector and transformed to E. coli BL21. The predicted molecular weight of recombinant endochitinase without signal peptide was 49.4kDa with a theoretical pI 6.67. SDS-PAGE analysis of purified 6xHis tagged protein showed a single band of 49kDa. The refolded enzyme was active under acidic conditions with a temperature and pH optima of 50°C and 4. Km and Vmax for recombinant endochitinase using 4-pNP-(GlcNAc)3 were 315.2±0.36μM and 0.140±0.08μMmin-1, respectively and the calculated kcat was 6.44min-1. The RT-qPCR revealed induction of ech46 by phytopathogenic fungi.

Identification and elimination of bacterial contamination during in vitro propagation of Guadua angustifolia Kunth

Background: Guadua angustifolia Kunth is a very important bamboo species with significant utility in pharmaceutical, paper, charcoal, and construction industries. Microbial contamination is a major problem encountered during establishment of in vitro cultures of Guadua. Objective: This study has been designed to analyze the identity of contaminating bacteria and to develop the strategy to eliminate them during micropropagation of Guadua. Materials and Methods: We isolated and consequently analyzed partial sequence analysis of the 16S rRNA gene to identify two contaminating bacteria as (1) Pantoea agglomerans and (2) Pantoea ananatis. In addition, we also- performed antibiotic sensitivity testing on these bacterial isolates. Results: We identified kanamycin and streptomycin sulfate as potentially useful antibiotics in eliminating the contaminating bacteria. We grew shoots on multiplication medium containing BAP (2 mg/l) and adenine sulfate (10 mg/l) supplemented with kanamycin (10 μg/ml) for 10 days and transferred them to fresh medium without antibiotics and found that bacterial growth was inhibited. Moreover, we observed intensive formation of high-quality shoots. Streptomycin sulfate also inhibited bacterial growth but at higher concentration. We also demonstrated that shoots grown in streptomycin sulfate tended to be shorter and had yellow leaves. Conclusion: Thus, we have developed a novel strategy to identify and inhibit intriguing microbial contaminations of (1) Pantoea agglomerans and (2) Pantoea ananatis during establishment of in vitro cultures of Guadua. This would improve in vitro establishment of an important bamboo, Guadua angustifolia Kunth for large scale propagation.

Integrated Translatome and Proteome: Approach for Accurate Portraying of Widespread Multifunctional Aspects of Trichoderma

Genome-wide studies of transcripts expression help in systematic monitoring of genes and allow targeting of candidate genes for future research. In contrast to relatively stable genomic data, the expression of genes is dynamic and regulated both at time and space level at different level in. The variation in the rate of translation is specific for each protein. Both the inherent nature of an mRNA molecule to be translated and the external environmental stimuli can affect the efficiency of the translation process. In biocontrol agents (BCAs), the molecular response at translational level may represents noise-like response of absolute transcript level and an adaptive response to physiological and pathological situations representing subset of mRNAs population actively translated in a cell. The molecular responses of biocontrol are complex and involve multistage regulation of number of genes. The use of high-throughput techniques has led to rapid increase in volume of transcriptomics data of Trichoderma. In general, almost half of the variations of transcriptome and protein level are due to translational control. Thus, studies are required to integrate raw information from different “omics” approaches for accurate depiction of translational response of BCAs in interaction with plants and plant pathogens. The studies on translational status of only active mRNAs bridging with proteome data will help in accurate characterization of only a subset of mRNAs actively engaged in translation. This review highlights the associated bottlenecks and use of state-of-the-art procedures in addressing the gap to accelerate future accomplishment of biocontrol mechanisms.

First Draft Genome Sequence of a Member of the Genus Planomicrobium, Isolated from the Chandra River, India

ABSTRACT We report the first draft genome sequence of a member of the genus Planomicrobium, isolated from a soil sample from the Chandra River, located in the cold deserts of Himachal Pradesh, India. The draft genome assembly for Planomicrobium glaciei strain CHR43 has a size of 3,900,800 bp with a G+C content of 46.97%.

Efficient synthesis of hydroxystyrenes via biocatalytic decarboxylation/deacetylation of substituted cinnamic acids by newly isolated Pantoea agglomerans strains.

BACKGROUND Decarboxylation of substituted cinnamic acids is a predominantly followed pathway for obtaining hydroxystyrenes-one of the most extensively explored bioactive compounds in the food and flavor industry (e.g. FEMA GRAS approved 4-vinylguaiacol). For this, mild and green strategies providing good yields with high product selectivity are needed. RESULTS Two newly isolated bacterial strains, i.e. Pantoea agglomerans KJLPB4 and P. agglomerans KJPB2, are reported for mild and effective decarboxylation of substituted cinnamic acids into corresponding hydroxystyrenes. Key operational parameters for the process, such as incubation temperature, incubation time, substrate concentration and effect of co-solvent, were optimized using ferulic acid as a model substrate. With strain KJLPB4, 1.51 g L⁻¹ 4-vinyl guaiacol (98% yield) was selectively obtained from 2 g L⁻¹ ferulic acid at 28 °C after 48 h incubation. However, KJPB2 provided vanillic acid in 85% yield after 72 h following the oxidative decarboxylation pathway. In addition, KJLPB4 was effectively exploited for the deacetylation of acetylated α-phenylcinnamic acids, providing corresponding compounds in 65-95% yields. CONCLUSION Two newly isolated microbial strains are reported for the mild and selective decarboxylation of substituted cinnamic acids into hydroxystyrenes. Preparative-scale synthesis of vinyl guaiacol and utilization of renewable feedstock (ferulic acid extracted from maize bran) have been demonstrated to enhance the practical utility of the process.

Chryseobacterium glaciei sp. nov., isolated from the surface of a glacier in the Indian trans-Himalayas

A novel bacterial strain, IHBB 10212T, of the genus Chryseobacterium was isolated from a glacier near the Kunzum Pass located in the Lahaul-Spiti in the North-Western Himalayas of India. The cells were Gram-negative, aerobic, non-sporulating, single rods, lacked flagella, and formed yellow to orange pigmented colonies. The strain utilized maltose, trehalose, sucrose, gentibiose, glucose, mannose, fructose, mannitol, arabitol and salicin for growth. Flexirubin-type pigments were produced by strain IHBB 10212T. The 16S rRNA gene sequence analysis showed relatedness of strain IHBB 10212T to Chryseobacterium polytrichastri DSM 26899T (97.43 %), Chryseobacterium greenlandense CIP 110007T (97.29 %) and Chryseobacterium aquaticum KCTC 12483T (96.80 %). Iso-C15 : 0 and summed feature 3 (C16 : 1ω7c/C16 : 1ω6c) constituted the major cellular fatty acids. The polar lipids present were six unidentified aminolipids, one unidentified phospholipid and three unidentified lipids. MK-6 was identified as the major quinone. The DNA G+C content was 34.08  mol%. Digital DNA-DNA hybridization of strain IHBB 10212T with C. polytrichastri, C. greenlandense and C. aquaticum showed values far below the prescribed thresholds of 95 % for average nucleotide identity and 70 % for the Genome-to-Genome Distance Calculator for species delineation. Based on its differences from validly published Chryseobacterium species, strain IHBB 10212T is identified as a new species, for which the proposed name is Chryseobacterium glaciei sp. nov., with IHBB 10212T as the type strain (=MTCC 12457T=JCM 31156T=KACC 19170T).

Heterologous expression and structure-function relationship of low-temperature and alkaline active protease from Acinetobacter sp. IHB B 5011(MN12)

The gene encoding protease from Acinetobacter sp. IHB B 5011(MN12) was cloned and expressed in Escherichia coli BL21(DE3). The nucleotide sequence revealed 1323bp ORF encoding 441 amino acids protein with molecular weight 47.2kDa. The phylogenetic analysis showed clustering of Alp protease with subtilisin-like serine proteases of S8 family. The amino acid sequence was comprised of N-terminal signal peptide 1-21 amino acids, pre-peptide 22-143 amino acids, peptidase S8 domain 144-434 amino acids, and pro-peptide 435-441 amino acids at C-terminus. Three constructs with signal peptide pET-Alp, without signal peptide pET-Alp1 and peptidase S8 domain pET-Alp2 were prepared for expression in E. coli BL21(DE3). The recombinant proteins Alp1 and Alp2 expressed as inclusion bodies showed ∼50kDa and ∼40kDa bands, respectively. The pre-propeptide ∼11kDa removed from Alp1 resulted in mature protein of ∼35kDa with 1738Umg-1 specific activity. The recombinant protease was optimally active at 40°C and pH 9, and stable over 10-70°C and 6-12pH. The activity at low-temperature and alkaline pH was supported by high R/(R+K) ratio, more glycine, less proline, negatively charged amino acids, less salt bridges and longer loops. These properties suggested the suitability of Alp as additive in the laundry.