Your search keyword '"Sarabjit Bhatti"' showing total 2 results

1. Biochemical and genomic identification of novel thermophilic Bacillus licheniformis strains YNP1-TSU, YNP2-TSU, and YNP3-TSU with potential in 2,3-butanediol production from non-sterile food waste fermentation

Author

Dajun Yu, Yanhong He, Joshua A. OHair, Sarabjit Bhatti, Suping Zhou, Haibo Huang, Santosh Thapa, Hui Li, and Qing Jin

Subjects

biology, General Chemical Engineering, Microorganism, Xylose, Sterilization (microbiology), biology.organism_classification, Biochemistry, Food waste, chemistry.chemical_compound, chemistry, 2,3-Butanediol, Fermentation, Bacillus licheniformis, Food science, Bacteria, Food Science, Biotechnology

Abstract

In the U.S., 30–40% of all food produced ends up as waste. By taking advantage of biological processes this waste nutrients can be converted into value-added 2,3-butanediol (2,3-BDO). However, food waste contains live bacteria and fungi which must first be inactivated, a process typically done with autoclaving under high pressure steam. If contaminants are not removed they can out-compete added industrial microbes for nutrients, resulting in lower yields of bio-products. Unfortunately, sterilization methods such as autoclaving greatly increase production time, and increase energy consumption. This creates a demand for novel microorganisms that can out-compete food waste microbiota by natural means without the need for sterilization of food waste. For this study, several Bacillus licheniformis isolates from Yellowstone National Park were investigated for their potential use in the 2,3-BDO industry. B. licheniformis species are a strain of industrial importance as of late, due to the wide metabolic functions and sustainable growth conditions above 45 °C. Whole genomic sequencing data and biochemical classification of B. licheniformis YNP1-TSU, B. licheniformis YNP2-TSU, and B. licheniformis YNP3-TSU were assessed and revealed a wide assortment of anti-microbial peptides and antibodies as well as catabolic genes for assimilation of glucose, fructose, galactose, xylose, arabinose, mannose, starch and sucrose, and linoleic acid. All three B. licheniformis strains had an optimal growth temperature of 50 °C, and were identified as high 2,3-BDO producers. Each strain YNP1-TSU, YNP2-TSU, and YNP3-TSU yielded 0.44 g/g, 0.45 g/g, and 0.43 g/g from mixed sugars found in non-sterilized food waste, respectively.

Published

2021

2. The Al-induced proteomes of epidermal and outer cortical cells in root apex of cherry tomato ‘LA 2710’

Author

Yong Yang, Hui Li, Shaolan Yang, Theodore W. Thannhauser, Suping Zhou, Sarabjit Bhatti, and Tara Fish

Subjects

Proteomics, 0301 basic medicine, Proteome, 030102 biochemistry & molecular biology, biology, Biophysics, Laser Capture Microdissection, biology.organism_classification, Biochemistry, Genome, 03 medical and health sciences, 030104 developmental biology, Solanum lycopersicum, Cherry tomato, Seedlings, Transcription (biology), Solanum, KEGG, Protein quality

Abstract

This paper reports a laser capture microdissection-tandem mass tag-quantitative proteomics analysis of Al-sensitive cells in root tips. Cherry tomato (Solanum lycopersicum var. cerasiforme ‘LA2710’) seedlings were treated under 15 μM Al3+ activity for 13 d. Root-tip longitudinal fresh frozen tissue sections of 10 μm thickness were prepared. The Al-sensitive root zone and cells were determined using histochemical analysis of root-tips and micro-sections. A procedure for collecting the Al-sensitive cells using laser capture microdissection-protein extraction-tandem mass tag-proteomics analysis was developed. Proteomics analysis of 18 μg protein/sample with three biological replicates per treatment condition identified 3879 quantifiable proteins each associated with two or more unique peptides. Quantified proteins constituted a broad range of Kyoto Encyclopedia of Genes and Genomes pathways when searched in the annotated tomato genome. Differentially expressed proteins between the Al-treated and non-Al treated control conditions were identified, including 128 Al-up-regulated and 32 Al-down-regulated proteins. Analysis of functional pathways and protein-protein interaction networks showed that the Al-down-regulated proteins are involved in transcription and translation, and the Al-up-regulated proteins are associated with antioxidant and detoxification and protein quality control processes. The proteomics data are available via ProteomeXchange with identifier PXD010459 under project title ‘LCM-quantitative proteomics analysis of Al-sensitive tomato root cells’. Significance This paper presents an efficient laser capture microdissection-tandem mass tag-quantitative proteomics analysis platform for the analysis of Al sensitive root cells. The analytical procedure has a broad application for proteomics analysis of spatially separated cells from complex tissues. This study has provided a comprehensive proteomics dataset expressed in the epidermal and outer-cortical cells at root-tip transition zone of Al-treated tomato seedlings. The proteomes from the Al-sensitive root cells are valuable resources for understanding and improving Al tolerance in plants.

Published

2020