Hemant V Ghate

Publications (5)11.25 Total impact

• Source

  Available from: Shailesh Shiwajirao Sawant

  Article: Bacterial diversity in different regions of gastrointestinal tract of Giant African Snail (Achatina fulica).

  Kiran D Pawar, Sunil Banskar, Shailendra D Rane, Shakti S Charan, Girish J Kulkarni, Shailesh S Sawant, Hemant V Ghate, Milind S Patole, Yogesh S Shouche
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  ABSTRACT: The gastrointestinal (GI) tract of invasive land snail Achatina fulica is known to harbor metabolically active bacterial communities. In this study, we assessed the bacterial diversity in the different regions of GI tract of Giant African snail, A. fulica by culture-independent and culture-dependent methods. Five 16S rRNA gene libraries from different regions of GI tract of active snails indicated that sequences affiliated to phylum γ-Proteobacteria dominated the esophagus, crop, intestine, and rectum libraries, whereas sequences affiliated to Tenericutes dominated the stomach library. On phylogenetic analysis, 30, 27, 9, 27, and 25 operational taxonomic units (OTUs) from esophagus, crop, stomach, intestine, and rectum libraries were identified, respectively. Estimations of the total bacterial diversity covered along with environmental cluster analysis showed highest bacterial diversity in the esophagus and lowest in the stomach. Thirty-three distinct bacterial isolates were obtained, which belonged to 12 genera of two major bacterial phyla namely γ-Proteobacteria and Firmicutes. Among these, Lactococcus lactis and Kurthia gibsonii were the dominant bacteria present in all GI tract regions. Quantitative real-time polymerase chain reaction (qPCR) analysis indicated significant differences in bacterial load in different GI tract regions of active and estivating snails. The difference in the bacterial load between the intestines of active and estivating snail was maximum. Principal component analysis (PCA) of terminal restriction fragment length polymorphism suggested that bacterial community structure changes only in intestine when snail enters estivation state.
  MicrobiologyOpen. 10/2012;
• Article: Determination of Wolbachia diversity in butterflies from Western Ghats, India, by a multigene approach.

  Bipinchandra K Salunke, Rahul C Salunkhe, Dhiraj P Dhotre, Sandeep A Walujkar, Avinash B Khandagale, Rahul Chaudhari, Rakesh K Chandode, Hemant V Ghate, Milind S Patole, John H Werren, Yogesh S Shouche
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  ABSTRACT: Members of the genus Wolbachia are intracellular bacteria that are widespread in arthropods and establish diverse symbiotic associations with their hosts, ranging from mutualism to parasitism. Here we present the first detailed analyses of Wolbachia in butterflies from India with screening of 56 species. Twenty-nine species (52%) representing five families were positive for Wolbachia. This is the first report of Wolbachia infection in 27 of the 29 species; the other two were reported previously. This study also provides the first evidence of infection in the family Papilionidae. A striking diversity was observed among Wolbachia strains in butterfly hosts based on five multilocus sequence typing (MLST) genes, with 15 different sequence types (STs). Thirteen STs are new to the MLST database, whereas ST41 and ST125 were reported earlier. Some of the same host species from this study carried distinctly different Wolbachia strains, whereas the same or different butterfly hosts also harbored closely related Wolbachia strains. Butterfly-associated STs in the Indian sample originated by recombination and point mutation, further supporting the role of both processes in generating Wolbachia diversity. Recombination was detected only among the STs in this study and not in those from the MLST database. Most of the strains were remarkably similar in their wsp genotype, despite divergence in MLST. Only two wsp alleles were found among 25 individuals with complete hypervariable region (HVR) peptide profiles. Although both wsp and MLST show variability, MLST gives better separation between the strains. Completely different STs were characterized for the individuals sharing the same wsp alleles.
  Applied and environmental microbiology 04/2012; 78(12):4458-67. · 3.69 Impact Factor
• Article: Phylogenetic characterization of bacteria in the gut of house flies (Musca domestica L.).

  Arvind K Gupta, Dana Nayduch, Pankaj Verma, Bhavin Shah, Hemant V Ghate, Milind S Patole, Yogesh S Shouche
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  ABSTRACT: House flies (Musca domestica L.) are cosmopolitan, ubiquitous, synanthropic insects that serve as mechanical or biological vectors for various microorganisms. To fully assess the role of house flies in the epidemiology of human diseases, it is essential to understand the diversity of microbiota harbored by natural fly populations. This study aimed to identify the diversity of house fly gut bacteria by both culture-dependent and culture-independent approaches. A total of 102 bacterial strains were isolated from the gut of 65 house flies collected from various public places including a garden, public park, garbage/dump area, public toilet, hospital, restaurant/canteen, mutton shop/market, and house/human habitation. Molecular phylogenetic analyses placed these isolates into 22 different genera. The majority of bacteria identified were known potential pathogens of the genera Klebsiella, Aeromonas, Shigella, Morganella, Providencia, and Staphylococcus. Culture-independent methods involved the construction of a 16S rRNA gene clone library, and sequence analyses supported culture recovery results. However, additional bacterial taxa not determined via culture recovery were revealed using this methodology and included members of the classes Alphaproteobacteria, Deltaproteobacteria, and the phylum Bacteroidetes. Here, we show that the house fly gut is an environmental reservoir for a vast number of bacterial species, which may have impacts on vector potential and pathogen transmission.
  FEMS Microbiology Ecology 11/2011; 79(3):581-93. · 3.41 Impact Factor
• Source

  Available from: Ashraf Rangrez

  Article: Ignatzschineria indica sp. nov. and Ignatzschineria ureiclastica sp. nov., isolated from adult flesh flies (Diptera: Sarcophagidae).

  Arvind Kumar Gupta, Mahesh Shantappa Dharne, Ashraf Yusuf Rangrez, Pankaj Verma, Hemant V Ghate, Manfred Rohde, Milind Shivaji Patole, Yogesh Shreepad Shouche
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  ABSTRACT: Two Gram-negative-staining, aerobic, non-motile, rod-shaped bacteria, designated strains FFA1(T) and FFA3(T), and belonging to the class Gammaproteobacteria were isolated from the gastrointestinal tract of adult flesh flies (Diptera: Sarcophagidae). Phylogenetic analysis of 16S rRNA gene sequence data placed these two strains within the genus Ignatzschineria with similarities of 98.6 % (FFA1(T)) and 99.35 % (FFA3(T)) to Ignatzschineria larvae L1/68(T). The level of gene sequence similarity between strains FFA1(T) and FFA3(T) was 99 %, 97.15 % and 78.1 % based on the 16S rRNA, 23S rRNA and gyrB gene sequences, respectively. Strains FFA1(T) and FFA3(T) shared 24 % DNA-DNA relatedness. DNA-DNA hybridization revealed a very low level of relatedness between the novel strains (22 % for strain FFA1(T) and 44 % for strain FFA3(T)) and I. larvae L1/68(T) genomic DNA. The respiratory quinone was Q-8 in both novel strains. The DNA G+C contents were 41.1 mol% and 40.1 mol% for strains FFA1(T) and FFA3(T), respectively. The cell membrane of both strains consisted of phosphatidylglycerol, phosphatidylethanolamine, phospholipids and aminophospholipid. The major fatty acids for both strains were C(16 : 0), summed feature 8 (C(18 : 1)ω7c and/or C(18 : 1)ω6c), CyC(19 : 0)ω8c and C(14 : 0). The results of DNA-DNA hybridization between the two new strains and I. larvae L1/68(T), in combination with phylogenetic, chemotaxonomic, biochemical and electron microscopic data, demonstrated that strains FFA1(T) and FFA3(T) represented two novel species of the genus Ignatzschineria for which the names Ignatzschineria indica sp. nov. (type strain FFA1(T) = DSM 22309(T) = KCTC 22643(T) = NCIM 5325(T)) and Ignatzschineria ureiclastica sp. nov. (type strain FFA3(T) = DSM 22310(T) = KCTC 22644(T) = NCIM 5326(T)) are proposed.
  INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY 06/2011; 61(Pt 6):1360-9. · 2.11 Impact Factor
• Article: Diversity of Wolbachia in Odontotermes spp. (Termitidae) and Coptotermes heimi (Rhinotermitidae) using the multigene approach.

  Bipinchandra K Salunke, Rahul C Salunkhe, Dhiraj P Dhotre, Avinash B Khandagale, Sandeep A Walujkar, Gulab S Kirwale, Hemant V Ghate, Milind S Patole, Yogesh S Shouche
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  ABSTRACT: The intracellular bacteria, Wolbachia, are well known for inducing reproductive alterations in arthropod hosts, especially insects. The ancient origin and huge diversity, combined with the ecological, biological and behavioral plasticity of termites, make the latter exciting candidates for studying the interactions of Wolbachia. In the present study, we investigated the distribution of Wolbachia in populations of Odontotermes spp. and Coptotermes heimi termites occurring in 14 colonies (12 Odontotermes spp. and two C. heimi) from different locations in India. A striking diversity was observed among Wolbachia strains in closely related hosts based on five MLST genes (ftsZ, coxA, fbpA, hcpA and gatB) and the 16S rRNA gene. Wolbachia variants from two supergroups (B and F) were found in both the termite genera under study. This is the first report of Wolbachia infection in the Odontotermes genus. Although F Wolbachia supergroup infection is already reported in Coptotermes lacteus and Coptotermes acinaciformis, in this study, the two C. heimi species exhibited infection by two distinctly different Wolbachia supergroups (B and F).
  FEMS Microbiology Letters 06/2010; 307(1):55-64. · 2.04 Impact Factor