Gulab Singh
@hau.ac.in
Assistant Professor
Choudhary Charan Singh Haryana Agricultural University
RESEARCH, TEACHING, or OTHER INTERESTS
Agricultural and Biological Sciences, Materials Science, Biotechnology, Applied Microbiology and Biotechnology
FUTURE PROJECTS
Production and Storage of Nanomaterial-Mediated Biohydrogen
Applications Invited
Collaborators
42
Scopus Publications
986
Scholar Citations
15
Scholar h-index
20
Scholar i10-index
Scopus Publications
- Next-generation nanomaterials-based biosensors: Real-time biosensing devices for detecting emerging environmental pollutants
Mansi Sharma, Priyanka Mahajan, Abdullah Saad Alsubaie, Virat Khanna, Surjeet Chahal, Abhinay Thakur, Ankush Yadav, Atul Arya, Amanpreet Singh, and Gulab Singh
Elsevier BV - Challenges and Sustainable Solutions for the Detection and Bioremediation of Microplastic Pollution: Challenges and Scope of Their Remediation From the Environment
Rajni Sharma, Love Singla, and Gulab Singh
CRC Press - Genetic polymorphism in Angiotensin-Converting Enzyme (ACE) and Asthma risk: A comparative meta-analysis based on Four gene model strategy
Kanu Priya, Garvit Sharma, Amita Suneja Dang, Shiv Kumar Giri, Gulab Singh, Saurabh Sudha Dhiman, Ashish Kumar, Sarvesh Rustagi, Nishant Ranjan, Swetha Raj,et al.
The ScienceIn Publishing - Investigating the relationship between pesticide exposure, GSTM1 and GSTT1 polymorphisms, and oxidative stress biomarkers in affected farmers
Hemlata, Monika Rani, Anil Kumar, Saurabh Sudha Dhiman, Kanu Priya, Anuradha Bhardwaj, Gulab Singh, Anita Saini, and Shiv Kumar Giri
SAGE Publications
Organophosphate pesticides, widely used in agriculture, are effective in pest control but pose environmental and health risks through soil, water, and air contamination. Exposure to these chemicals is linked to adverse human health effects, underscoring the need for environmentally sustainable practices. This study aimed to assess urinary organophosphate metabolites and examine the relationship between GSTM1 and GSTT1 gene polymorphisms with biomarkers of oxidative stress among farmers in Himachal Pradesh exposed to pesticides. We collected urine samples (50 mL) from the exposed group to detect organophosphate metabolites using GC-MS. Blood samples (5 mL) were also obtained for GSTM1 and GSTT1 genotyping and assessment of antioxidant enzyme activities. The results showed decreased enzymatic activity of SOD (2.92 ± 1.07) and catalase (12.60 ± 3.15) in the exposed group, with increased MDA levels (4.14 ± 1.36), compared with the unexposed group (SOD: 7.04 ± 1.34, catalase: 25.75 ± 2.20, MDA: 1.15 ± 0.18). No significant associations ( p > .05) were found between GSTM1 or GSTT1 genotypes and SOD, catalase, or MDA activities. The study concluded that prolonged pesticide exposure induces oxidative stress linked to specific genetic variations, suggesting directions for further research into the toxicogenetics of pesticide exposure and its health implications. - Chemical leukoderma: An insight of pathophysiology and contributing factors
Soniya Jangra, Heena Gulia, Jagphool Singh, Amita S Dang, Shiv K Giri, Gulab Singh, Kanu Priya, and Anil Kumar
SAGE Publications
Chemical leukoderma, or chemical-based vitiligo, is a dermal disease triggered by exposure to chemicals and characterized by the emergence of depigmentation or hypopigmentation of the skin. The etiology of this condition is associated with exposure to various chemical substances present in both occupational and non-occupational settings. The precise mechanism that underlies chemical leukoderma remains elusive and is believed to result from the demise of melanocytes, which are responsible for producing skin pigments. This condition has gained particular prominence in developing countries like India. An interesting connection between chemical leukoderma and vitiligo has been identified; studies suggest that exposure to many household chemicals, which are derivatives of phenols and catechol, may serve as a primary etiological factor for the condition. Similar to autoimmune diseases, its pathogenesis involves contributions from both genetic and environmental factors. Furthermore, over the last few decades, various studies have demonstrated that exposure to chemicals plays a crucial role in initiating and progressing chemical leukoderma, including cases stemming from occupational exposure. - Nanomaterials mediated valorization of agriculture waste residue for biohydrogen production
Meena Sindhu, Rajni Sharma, Anita Saini, Virat Khanna, and Gulab Singh
Elsevier BV - Phytoremediation: Treatment Strategies for Industrial and Biomedical Waste
Love Singla, Anita Saini, Vivek Kumar, Gulab Singh, Anil Kumar, and Shiv Kumar Giri
CRC Press - Panorama of physico-mechanical engineering of graphene-reinforced copper composites for sustainable applications
K. Singh, V. Khanna, A. Rosenkranz, V. Chaudhary, Sonu, G. Singh, and S. Rustagi
Elsevier BV - Effect of various bio-deposition treatment techniques on recycled aggregate and recycled aggregate concrete
Himanshu Sharma, Sanjay Kumar Sharma, Deepankar Kumar Ashish, Suman Kumar Adhikary, and Gulab Singh
Elsevier BV - Comparative study of ethanol production from sodium hydroxide pretreated rice straw residue using Saccharomyces cerevisiae and Zymomonas mobilis
Naveen Kumar, Anita Yadav, Gulab Singh, Ajay Singh, Pankaj Kumar, and Neeraj K. Aggarwal
Springer Science and Business Media LLC - Antibiotics Stress Response of Bacteria as Mechanism of Development of Drug Resistance
Rajni Sharma, Akash Thakur, Anita Saini, Shiv Kumar Giri, Anil Kumar, Kanu Priya, and Gulab Singh
American Chemical Society - Survival Strategies and Stress Adaptations in Halophilic Archaebacteria
Anita Saini, Anil Kumar, Gulab Singh, and Shiv Kumar Giri
American Chemical Society - Unraveling the importance of melatonin in the alleviation of metal-induced toxicity
Neha Verma, Shiv Kumar Giri, Gulab Singh, Kanu Priya, and Anil Kumar
Elsevier - The role of plant growth promoting rhizobacteria in strengthening plant resistance to fluoride toxicity: a review
Anamika Singh, Virendra Kumar Yadav, Hemant Gautam, Lokendra Rathod, Rajendra Singh Chundawat, Gulab Singh, Rakesh Kumar Verma, Dipak Kumar Sahoo, and Ashish Patel
Frontiers Media SA
A wide variety of bacteria are present in soil but in rhizospheric area, the majority of microbes helps plant in defending diseases and facilitate nutrient uptake. These microorganisms are supported by plants and they are known as plant growth-promoting rhizobacteria (PGPR). The PGPRs have the potential to replace chemical fertilizers in a way that is more advantageous for the environment. Fluoride (F) is one of the highly escalating, naturally present contaminants that can be hazardous for PGPRs because of its antibacterial capacity. The interactions of F with different bacterial species in groundwater systems are still not well understood. However, the interaction of PGPR with plants in the rhizosphere region reduces the detrimental effects of pollutants and increases plants’ ability to endure abiotic stress. Many studies reveal that PGPRs have developed F defense mechanisms, which include efflux pumps, Intracellular sequestration, enzyme modifications, enhanced DNA repair mechanism, detoxification enzymes, ion transporter/antiporters, F riboswitches, and genetic mutations. These resistance characteristics are frequently discovered by isolating PGPRs from high F-contaminated areas or by exposing cells to fluoride in laboratory conditions. Numerous studies have identified F-resistant microorganisms that possess additional F transporters and duplicates of the well-known targets of F. Plants are prone to F accumulation despite the soil’s low F content, which may negatively affect their growth and development. PGPRs can be used as efficient F bioremediators for the soil environment. Environmental biotechnology focuses on creating genetically modified rhizobacteria that can degrade F contaminants over time. The present review focuses on a thorough systemic analysis of contemporary biotechnological techniques, such as gene editing and manipulation methods, for improving plant-microbe interactions for F remediation and suggests the importance of PGPRs in improving soil health and reducing the detrimental effects of F toxicity. The most recent developments in the realm of microbial assistance in the treatment of F-contaminated environments are also highlighted. - Serendipitous discovery of a regioselective synthesis of novel benzoyloxy substituted phenyl/benzyl-sulfanyl/selenylbisesters, 3-benzoyloxy-3-(phenylsulfanyl)-β-lactams and their antimicrobial evaluation
Dipika Narula, Shamsher S. Bari, Gulab Singh, Rajni Sharma, Ankita Garg, and Aman Bhalla
Informa UK Limited
The regioselective benzoyloxylation process involves stirring a mixture of phenyl/benzyl-sulfanyl/selenylethanoate 1a-c with appropriate oxidant [benzoyl peroxide (BPO) 2a/ m-chloroperbenzoic acid (m-CPBA) 2b /bis(p-methoxybenzoyl peroxide) (BPM-BPO) 2c] under catalysis of hydrated copper acetate in toluene at 60 °C/RT. Regioselective C–H functionalization of esters 1a-c leads to benzoyloxy substituted phenyl/benzyl-sulfanyl/selenylbisesters 3a-g in good to excellent yields (80–95%). Variably substituted trans-3-phenylsulfanyl-β-lactams 4 employed for C3-H functionalization with BPO 2a generates diastereoisomeric mixture of trans- and cis-3-benzoyloxy-3-(phenylsulfanyl)-β-lactams 5 and 6 as major and minor isomers after efficient column chromatographic purification. The structural confirmation was done using IR, 1H NMR, 13C NMR, DEPT-90 NMR spectroscopic analysis and CHNS elemental analysis. In vitro antibacterial and antifungal evaluations on bisesters suggest benzylselenyl-bisester 3c as potent antimicrobial agent. Out of trans- and cis-3-benzoyloxy-β-lactams 5a and 6a, the trans isomer 5a was active against all microbial strains whereas the cis isomer 6a was completely inactive. GRAPHICAL ABSTRACT - ROS-mediated pathogen control by ZnO and MgO nanoparticles
Rajni Sharma, Shiv Kumar Giri, Anil Kumar, Shivangi Chamoli, and Gulab Singh
Elsevier - Green synthesis of copper nanoparticles and their evaluation for antimicrobial activity and bio-compatibility
Shivani Choudhary, Rajni Sharma, Anjali Devi, Akash Thakur, Shiv Kumar Giri, Sushil Nagar, and Gulab Singh
Elsevier BV - Clove leaf-based magnesium nanoparticles synthesis for antimicrobial applications
Rajni Sharma, Shiv Kumar Giri, Anita Saini, Sushil Nagar, and Gulab Singh
Elsevier BV - Comparative frequency distribution of glutathione S-transferase mu (GSTM1) and theta (GSTT1) allelic forms in Himachal Pradesh population
Hemlata, Jagphool Singh, Anuradha Bhardwaj, Anil Kumar, Gulab Singh, Kanu Priya, and Shiv Kumar Giri
Springer Science and Business Media LLC
Abstract Background Glutathione S-transferases (GSTs) are a class of important Phase II detoxification enzymes that catalyze the conjugation of glutathione and xenobiotic compounds (environmental carcinogens, pollutants and drugs) to protect against oxidative stress. GSTT1 and GSTM1 genetic polymorphisms have been extensively studied, and null genotypes or homozygous deletions have been reported in various populations. Previous studies have suggested that those who are homozygous null at the GSTM1 or GSTT1 loci are more susceptible and have a higher risk of cancers linked to environmental pollutants and drug-induced toxicity. Our study focused on GSTM1 and GSTT1 null allele frequency in the Doon population of Himachal Pradesh (India) with a comparison across other Inter and Intra-Indian ethnic groups to predict variation in the possible susceptible status. Material and methods Genomic DNA samples were extracted from 297 healthy unrelated individuals by a ReliaPrep™ Blood gDNA Miniprep kit (Promega, USA), and genotyped for allelic variation in GSTM1 and GSTT1 genotypes by multiplex polymerase chain reaction. Fisher's exact test was applied using SPSS.20 to analyze the genotypic distribution of GSTM1 and GSTT1 null alleles in male and female of Doon region (Solan) Himachal Pradesh. Results In our study, the frequency distribution of the homozygous null genotypes of GSTM1, GSTT1 individually as well as combined was found as 33.3%, 32% and 9%, respectively. Upon gender-wise comparison, a non-significant distribution (p > 0.05) for null genotypes of GSTM1 (32.8% and 35.4%, OR-0.77, 95% CI 0.42–1.41), GSTT1 (33.2% and 27.7%, OR-1.12, 95% CI 0.63–2.0) individually and combined GSTM1 and GSTT1 (10.8% and 3.7%, OR-0.31, 95% CI 0.07–1.42) were observed in studied population. Conclusions In our studied population, the frequency of GSTM1 null genotypes was found deviated from Inter- and Intra-Indian ethnic groups. However, the frequency of homozygous null type of GSTT1 was not significantly different, when compared to previous Indian studies, comparison with global ethnic groups showed deviation. Thus, our study has highlighted possible susceptibility risk to various xenobiotics in the Doon population of Himachal Pradesh, India. - Occupational health hazards and wide spectrum of genetic damage by the organic solvent fumes at the workplace: A critical appraisal
Neha Verma, Soumya Pandit, Piyush Kumar Gupta, Sanjay Kumar, Anil Kumar, Shiv Kumar Giri, Gulab Yadav, and Kanu Priya
Springer Science and Business Media LLC - Epigenetic regulation of heat and cold stress responses in crop plants
Neha Verma, Shiv Kumar Giri, Gulab Singh, Ritu Gill, and Anil Kumar
Elsevier BV - Bioactive peptides and proteins
- Role of nanotechnology in various aspects of the food industry
- Impact of Agrochemicals on Soil Microbiota
Shiv Kumar Giri, Neha Verma, Gulab Singh, Ritu Gill, and Anil Kumar
Springer Nature Singapore - In silico screening and molecular docking study of compounds from Pedalium murex L. with Vasopressin2 receptor target for Autosomal Dominant Polycystic Kidney Disease
Gobind Ram, Anil Kumar, Hemlata, Gulab Singh, and Shiv Kumar Giri
Springer Science and Business Media LLC
Abstract Background Autosomal dominant polycystic kidney disease (ADPKD) is frequently inherited disease. The medicinal plant Pedalium murex (P. murex) Linn, that has anti-inflammatory, antiurolithiatic, and diuretic properties, has a greater tendency to cure urinary defects. P. Murex compounds have been studied in order to find an effective treatment against the Vasopressin 2 receptor (V2R), which is a target for ADPKD. The compound structures were designed using ChemSketch software, which was then optimised for the exploration of pharmacokinetic properties. Finally, AutoDock VINA programme was used to execute molecular docking, and the findings were analysed and visualised in Discovery studio visualizer. Results Virtual screening using PyRx software finds seven compounds from P. murex with binding affinities ranging from − 8.6 to − 5.8 kcal/mol, which will be used for further pharmacological characteristics study. Luteolin has a higher druglikeness and an overall drug score of 0.84, indicating as a most suitable compound. Furthermore, luteolin docking and bonding study reveals improved receptor (V2R) H-bonding with Phe105(2.26 and 2.96), Gln119(2.78), and any Lys116(2.16). Conclusions Based on affinity score, screening of various compounds from P. murex against the V2R target for the ADPKD showed that the phytocompound luteolin has superior pharmacological characteristics and bonding. Luteolin from P. murex can be used as a possible therapeutic candidate after rigorous in silico investigation. Graphic abstract
RECENT SCHOLAR PUBLICATIONS
- Next-generation nanomaterials-based biosensors: real-time biosensing devices for detecting emerging environmental pollutants
M Sharma, P Mahajan, AS Alsubaie, V Khanna, S Chahal, A Thakur, ...
Materials Today Sustainability, 101068 2024 - Nanomaterials mediated valorization of agriculture waste residue for biohydrogen production
M Sindhu, R Sharma, A Saini, V Khanna, G Singh
International Journal of Hydrogen Energy 52, 1241-1253 2024 - Panorama of physico-mechanical engineering of graphene-reinforced copper composites for sustainable applications
K Singh, V Khanna, A Rosenkranz, V Chaudhary, G Singh, S Rustagi
Materials Today Sustainability 24, 100560 2023 - Serendipitous discovery of a regioselective synthesis of novel benzoyloxy substituted phenyl/benzyl-sulfanyl/selenylbisesters, 3-benzoyloxy-3-(phenylsulfanyl)-β-lactams and
D Narula, SS Bari, G Singh, R Sharma, A Garg, A Bhalla
Journal of Sulfur Chemistry 44 (6), 712-732 2023 - The role of plant growth promoting rhizobacteria in strengthening plant resistance to fluoride toxicity: a review
A Singh, VK Yadav, H Gautam, L Rathod, RS Chundawat, G Singh, ...
Frontiers in Microbiology 14, 1271034 2023 - Effect of various bio-deposition treatment techniques on recycled aggregate and recycled aggregate concrete
H Sharma, SK Sharma, DK Ashish, SK Adhikary, G Singh
Journal of Building Engineering 66, 105868 2023 - Comparative study of ethanol production from sodium hydroxide pretreated rice straw residue using Saccharomyces cerevisiae and Zymomonas mobilis
N Kumar, A Yadav, G Singh, A Singh, P Kumar, NK Aggarwal
Archives of Microbiology 205 (4), 146 2023 - Green synthesis of copper nanoparticles and their evaluation for antimicrobial activity and bio-compatibility
S Choudhary, R Sharma, A Devi, A Thakur, SK Giri, S Nagar, G Singh
Materials Today: Proceedings 2023 - Clove leaf-based magnesium nanoparticles synthesis for antimicrobial applications
R Sharma, SK Giri, A Saini, S Nagar, G Singh
Materials Today: Proceedings 2023 - Unraveling the importance of melatonin in the alleviation of metal-induced toxicity
N Verma, SK Giri, G Singh, K Priya, A Kumar
Biostimulants in Alleviation of Metal Toxicity in Plants, 295-319 2023 - Antibiotics stress response of bacteria as mechanism of development of drug resistance
R Sharma, A Thakur, A Saini, SK Giri, A Kumar, K Priya, G Singh
Microbial Stress Response: Mechanisms and Data Science, 23-42 2023 - Survival strategies and stress adaptations in halophilic Archaebacteria
A Saini, A Kumar, G Singh, SK Giri
Microbial stress response: mechanisms and data science, 1-21 2023 - Impact of Agrochemicals on Soil Microbiota
SK Giri, N Verma, G Singh, R Gill, A Kumar
Agrochemicals in Soil and Environment: Impacts and Remediation, 61-76 2022 - Comparative frequency distribution of glutathione S-transferase mu (GSTM1) and theta (GSTT1) allelic forms in Himachal Pradesh population
Hemlata, J Singh, A Bhardwaj, A Kumar, G Singh, K Priya, SK Giri
Egyptian Journal of Medical Human Genetics 23 (1), 86 2022 - Magnetic Molecularly Imprinted Polymer (MMIP) Mediated Bacterial Esterase-Based Assay for Captan Detection in Milk
B Kumar, GS Yadav, N Kumar, A Kumar, HV Raghu
Food Analytical Methods, 1-17 2022 - Occupational health hazards and wide spectrum of genetic damage by the organic solvent fumes at the workplace: A critical appraisal
N Verma, S Pandit, PK Gupta, S Kumar, A Kumar, SK Giri, G Yadav, ...
Environmental Science and Pollution Research 29 (21), 30954-30966 2022 - Epigenetic regulation of heat and cold stress responses in crop plants
N Verma, SK Giri, G Singh, R Gill, A Kumar
Plant gene 29, 100351 2022 - In silico screening and molecular docking study of compounds from Pedalium murex L. with Vasopressin2 receptor target for Autosomal Dominant Polycystic
G Ram, A Kumar, Hemlata, G Singh, SK Giri
Beni-Suef University Journal of Basic and Applied Sciences 10, 1-8 2021 - Cross talk between renal transporters and polycystin-1 as a potential molecular target involved in autosomal dominant polycystic kidney disease
G Ram, T Vats, A Kumar, G Singh, SK Giri
Iran J Kidney Dis 15 (3), 177-189 2021 - Aptamer Based Diagnosis: A Cost-Effective and Suitable Point of Care Testing Method Against SARS Coronavirus-2 (SARs-CoV-2) and Other Rapidly Spreading Diseases
V Kumar, GS Yadav, BD Banerjee
Current Biotechnology 10 (1), 3-6 2021
MOST CITED SCHOLAR PUBLICATIONS
- Isolation and screening of polyhydroxyalkanoates producing bacteria from pulp, paper, and cardboard industry wastes
AK Bhuwal, G Singh, NK Aggarwal, V Goyal, A Yadav
International journal of biomaterials 2013 (1), 752821 2013
Citations: 230 - Poly β‐Hydroxybutyrate Production by Bacillus subtilis NG220 Using Sugar Industry Waste Water
G Singh, A Kumari, A Mittal, A Yadav, NK Aggarwal
BioMed research international 2013 (1), 952641 2013
Citations: 102 - Poly-β-hydroxybutyrate production and management of cardboard industry effluent by new Bacillus sp. NA10
AK Bhuwal, G Singh, NK Aggarwal, V Goyal, A Yadav
Bioresources and Bioprocessing 1, 1-11 2014
Citations: 67 - Isolation and biochemical characterization of acido-thermophilic extracellular phytase producing bacterial strain for potential application in poultry feed
A Mittal, G Singh, V Goyal, A Yadav, KR Aneja, SK Gautam, NK Aggarwal
Jundishapur Journal of Microbiology 4 (414), 273-282 2011
Citations: 63 - Optimization of poly-B-hydroxybutyrate production from Bacillus species
G Singh, A Mittal, A Kumari, V Goel, NK Aggarwal, A Yadav
European Journal of Biological Sciences 3 (4), 112-116 2011
Citations: 62 - PRODUCTION OF PHYTASE BY ACIDO-THERMOPHILIC STRAIN OF KLEBSIELLA sp. DB-3FJ711774. 1 USING ORANGE PEEL FLOUR UNDER SUBMERGED FERMENTATION.
A Mittal, G Singh, V Goyal, A Yadav, NK Aggarwal
Innovative Romanian Food Biotechnology 2012
Citations: 53 - Parametric Optimization of Cultural Conditions for Carboxymethyl Cellulase Production Using Pretreated Rice Straw by Bacillus sp. 313SI under Stationary and
V Goyal, A Mittal, AK Bhuwal, G Singh, A Yadav, NK Aggarwal
Biotechnology research international 2014 (1), 651839 2014
Citations: 51 - Effect of various bio-deposition treatment techniques on recycled aggregate and recycled aggregate concrete
H Sharma, SK Sharma, DK Ashish, SK Adhikary, G Singh
Journal of Building Engineering 66, 105868 2023
Citations: 45 - Spectroscopic, thermal, and antimicrobial studies of Co (II), Ni (II), Cu (II), and Zn (II) complexes derived from bidentate ligands containing N and S donor atoms
K Singh, Y Kumar, P Puri, G Singh
Bioinorganic Chemistry and Applications 2012 (1), 729708 2012
Citations: 40 - Cost Effective Production of Poly-β-Hydroxybutyrate by Bacillus subtilis NG05 Using Sugar Industry Waste Water
G Singh, A Kumari, A Mittal, V Goel, A Yadav, NK Aggarwal
Journal of Polymers and the Environment 21, 441-449 2013
Citations: 36 - Epigenetic regulation of heat and cold stress responses in crop plants
N Verma, SK Giri, G Singh, R Gill, A Kumar
Plant gene 29, 100351 2022
Citations: 29 - Phytase: a boom in food industry
A Mittal, V Gupta, G Singh, A Yadav, NK Aggarwal
Octa Journal of Biosciences 1 (2) 2013
Citations: 25 - Synthesis and characterization of oxytetracycline imprinted magnetic polymer for application in food
S Aggarwal, YS Rajput, G Singh, R Sharma
Applied Nanoscience, 1-6 2015
Citations: 18 - Comparative study of ethanol production from sodium hydroxide pretreated rice straw residue using Saccharomyces cerevisiae and Zymomonas mobilis
N Kumar, A Yadav, G Singh, A Singh, P Kumar, NK Aggarwal
Archives of Microbiology 205 (4), 146 2023
Citations: 17 - Panorama of physico-mechanical engineering of graphene-reinforced copper composites for sustainable applications
K Singh, V Khanna, A Rosenkranz, V Chaudhary, G Singh, S Rustagi
Materials Today Sustainability 24, 100560 2023
Citations: 16 - Optimization of medium components for phytase production on orange peel flour by Klebsiella sp. DB3 using response surface methodology
M Arpana, S Gulab, G Varsha, Y Anita, AN Kumar
Innovative Romanian Food Biotechnology, 35-44 2011
Citations: 13 - Nanomaterials mediated valorization of agriculture waste residue for biohydrogen production
M Sindhu, R Sharma, A Saini, V Khanna, G Singh
International Journal of Hydrogen Energy 52, 1241-1253 2024
Citations: 12 - Survival strategies and stress adaptations in halophilic Archaebacteria
A Saini, A Kumar, G Singh, SK Giri
Microbial stress response: mechanisms and data science, 1-21 2023
Citations: 12 - Occupational health hazards and wide spectrum of genetic damage by the organic solvent fumes at the workplace: A critical appraisal
N Verma, S Pandit, PK Gupta, S Kumar, A Kumar, SK Giri, G Yadav, ...
Environmental Science and Pollution Research 29 (21), 30954-30966 2022
Citations: 10 - Aptamers
GS Yadav, V Kumar, NK Aggarwal
Springer Singapore 2019
Citations: 10