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Mr Krishna Raj Singh

vidwan id: 430763

Male

Assistant Professor, Department of Biotechnology
Sanskriti University

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Expertise

Biology

Publications

Total Articles 77

Books 0

Proceedings 0

Publications

Scopus

Citations 0

h-index 0

CrossRef

Citations 6

h-index 2

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Professional Recognition

2019

Best Faculty Award

Sanskriti University, Mathura

Community & Membership

2018

Discipline Committee at Sanskriti University, Mathura

Member

2017

Admission Committee at Sanskriti University, Mathura

Member (Counselor)

2018

Examination Committee at Sanskriti University, Mathura

Coordinator

2021

Flying Squad Team at Sanskriti University

Member

2022

Sanskriti University Flying Squad Team

Group Leader

IEEE

2022

Instutional Membership

Bio

Present, Im serving as Assistant Professor in Department of Applied sciences at Sanskriti University, Mathura, Uttar Pradesh, India.

Personal Details

Male
Assistant Professor , Sanskriti University
Department of Biotechnology, Sanskriti University

Ph.D (Pursuing)

Sanskriti University 2021

M.Sc.

Other Institute 2011

B.Sc.

Other Institute 2009

Senior Secondary

Other Institute 2006

Secondary

Other Institute 2004

Assistant Professor Aug 2016 – Present

Sanskriti University | Department of Biotechnology

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Scholarly Work

NILL

Funding Agency: NILL

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0

2023 - Ongoing

Ongoing

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University NILL

Year 2023

AUTOMATED SPIRAL BINDING DEVICE

Sanskriti University

Engineering and Technology Application No. : 202311022172 Filed : 27-03-2023

Published : N/A Filed

Scholarly Publications

Food spoilage is described as “any sensory change (visual, tactile or flavour)” that the consumer deemed to be unacceptable. Spoilage can occur throughout the food chain at any point. Spoilage in animal or plant tissue or microbial infections may result from physical damage, insect damage and indigenous enzyme activity. The important source for human life is fruits and vegetables. Many natural foods have a life that is minimal. Processing is such a great parameter that analyzes food quality. Today, fruits and vegetables are vulnerable to microorganism development that can be sustained by soil, air and water-borne disease. There is a short life cycle for perishable foods such as meat, fish and bread. Other food can be stored for a much longer period of time, but ultimately decomposes. Enzymes can cause polymer degradation in some foods while other chemical reactions such as oxidation and rancidity decompose, but the main single cause of food spoilage is microorganism invasion such as bacteria, yeast and moulds.

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

In the absence of oxygen, anaerobic microorganisms present in various ecological niches use alternative energy conservation strategies which allow them to play a key role in maintaining the global cycles of nitrogen, carbon and sulfur and breakdown of persistent compounds. Throughout industrial and environmental biotechnology, they become useful tools. While anaerobes have been relatively ignored compared to their aerobic counterparts, metabolic potential and with increased knowledge of their diversity and the development of genetic tools and process technologies to use them, we are now seeing a rapid expansion of their applications in society. This article summarizes some of the advances in the use of anaerbes as methods for the valorization of biomass, the processing of energy carriers and chemicals, the treatment of wastewater, and the powerful potential of soil remediation. The autotrophic anaerobes ' ability to reduce carbon dioxide is gaining growing attention as a means of creating a market for turning waste gases into chemicals, products, and bio-fuels.

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

Cloning of the DNA is the process by which a specific piece of DNA can be made by several identical copies. In a standard DNA cloning process, the gene or some other involved DNA fragment is first inserted into a circular piece of DNA called a plasmid (maybe a gene for a medically relevant human protein). This replaces with a molecule of recombinant DNA or DNA fragments from multiple sources and is achieved by using enzymes "cut and paste" DNA. Instead, bacteria are entered with recombinant plasmid. The plasmid-carrying bacteria were picked and cultivated. After reproduction, the further process is to replicate plasmid to their offspring by producing copies of the DNA. Many DNA copies needed to experiment or create new plasmids in certain situations. The fragment of DNA codes a useful protein in another case and the bacteria are used for the processing of the protein as "factories." The human insulin gene, for example, is expressed in E. coli bacteria to produce insulin which is used by diabetics.

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

Genetics is the inheritance study. Heredity is a biological process in which a parent transmits those genes to their children or offspring. Each child inherits genes from both parents of their biology and these genes express specific characteristics in turn. Some of these characteristics may be physical, such as hair and eye color, skin color, etc. On the other hand, certain genes may also carry the risk of certain diseases and disorders that can spread to their offspring from parents. The genetic information lies within each living cell in the body's cell nucleus. For example, the information can be considered to be kept in a book. Part of this book comes from the father with the genetic information, while the other part comes from the mother.

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

The dawn of a new decade is a time to reflect on the tremendous progress made in human genomic research. For entire genome sequencing becoming more feasible, the prospect of large-scale human genomic research involving hundreds, thousands, and even hundreds of thousands of individuals is increasingly becoming a reality. The next generation of human genomic research will occur on a scale that at the beginning of the last decade would have been almost unfathomable, when the announcement of the first draft results of the Human Genome Project was still pending.

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

This paper gives working definitions and a calculated structure to comprehend the jobs of biomarkers in clinical research. The meanings of the terms talked about in this paper—therapeutic signs, symptoms, biomarkers, surrogate endpoints, clinical endpoints, approval—are still under dialog, similar to their connections to one another, however expansive accord has created previously decade and a half about the need of recognizing, specifically, surrogate and clinical endpoints. This paper diagrams the significant meanings of the key terms in this field and considers select situations where false impressions about the terms prompted defective research ends. The utilization of biomarkers in essential and clinical research just as in clinical practice has become so ordinary that their essence as essential endpoints in clinical preliminaries is currently acknowledged nearly beyond a shadow of a doubt. On account of explicit biomarkers that have been well portrayed and over and again appeared to effectively foresee pertinent clinical results over an assortment of medications and populaces, this utilization is completely supported and fitting. In numerous cases, nonetheless, the "legitimacy" of biomarkers is expected where, indeed, it should keep on be assessed and reconsidered. This paper will consider the current reasonable status of biomarkers as clinical and indicative instruments and as surrogate endpoints in clinical research with the objective of giving setting to deciphering

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

The lesions of cartilage cannot cure spontaneously and result in chronic diseases that worsen patients ' quality of life. The capacity for tissue regeneration is kept in the three-dimensional scaffold-based bioprinting through the formation of an ordered, living system through a "lay by line" deposition of small biomaterial and cell units. This technique has significant advantages over traditional methods for imitating natural cartilage, allowing for the control of cell distribution and the modulation of mechanical and chemical properties. The design of complex structures (the osteochondral compartment) various types of cartilages (hyaline, fibrous) and designs according to a specific patiente's needs opens up many new perspectives, like personalized medication. However, it remains a challenge to find the ideal combination of biomaterial and cartilage bioprinting cells. Stem cells can improve the capacity of the material to mimic, thanks to their unique qualities: immune and paracrine activity. In this study, we discuss the recent advances in the 3D, stem cell-based scaffolding of cartilage and identify future developments in medical translation.

article

Year: 2018. Volume: 8 .

Authors: Krishan Raj Singh

Human Genome Project

article

Year: 2018. Volume: Volume VIII, Issue VIII, , Pages: 2810-2814 .

Authors: Krishan Raj Singh

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