Please check Green biotechnology Internship details below.
Click Here to View Green biotechnology Internship Program Structure
Traversing Diverse Green biotechnology Research Horizons: Specialized Research Methodologies and Varied Topics Unveiled
Research Methodologies focussed for Internship students under Green biotechnology:
NTHRYS provides Green Biotechnology Internship for interested candidates at its Hyderabad facility, Telangana. Please refer below for more details including Topics, Fee strctures, Eligibility, Protocols and Modules etc.,. Please do call / message / whatsapp for more details on 9014935156 [India - +91]
Eligibility: BSc / BTech / MSc / MTech / MPhil / PhD in any Life Sciences studying or completed students
Topics / Titles
Note: Due to certain intellectual constrains complete titles of the topics are not mentioned
Students / Scholars can choose one topic from the below list to undergo internship under this field.
Topics / Titles list under modification. Please whatsapp / message to 9014935156 to get Topics details
Comprehensive list of research approaches used in green biotechnology for agricultural processes, plant micropropagation, transgenic plants, and related areas:
Research Approaches in Green Biotechnology: Agricultural Processes
1.
Genomic Sequencing
Analyzing the complete DNA sequences of organisms to identify genes related to specific traits, aiding in crop improvement.
2.
Metagenomics
Studying the genetic material recovered directly from environmental samples to understand microbial communities in soil and their impact on plant health.
3.
Phenotyping
Measuring and analyzing observable traits in plants to evaluate responses to different environmental conditions.
4.
Omics Technologies
Employing genomics, transcriptomics, proteomics, and metabolomics to comprehensively study plant systems.
5.
Quantitative Trait Loci (QTL) Mapping
Identifying genomic regions associated with specific traits to guide breeding programs.
6.
Marker-Assisted Selection (MAS)
Using genetic markers linked to desired traits for more efficient breeding.
7.
Cryopreservation
Freezing plant tissues for long-term storage and conservation of genetic diversity.
8.
Integrated Pest Management (IPM)
Combining multiple approaches to manage pests, including biological control and reduced pesticide use.
9.
Agroforestry
Integrating trees with crops to enhance soil fertility, reduce erosion, and increase biodiversity.
10.
Drought Tolerance Screening
Evaluating plants for their ability to withstand water scarcity through physiological and molecular analyses.
Research Approaches in Green Biotechnology: Plant Micropropagation
11.
Meristem Culture
Culturing the growing tip of a plant to produce disease-free stock for propagation.
12.
Somatic Embryogenesis
Inducing plant cells to develop into embryos in vitro, allowing mass propagation.
13.
Callus Culture
Growing undifferentiated plant cells to produce clumps of cells that can be regenerated into whole plants.
14.
Micrografting
Joining sections of plants to facilitate the growth of new plants, ensuring uniformity.
15.
Temporary Immersion Bioreactors
Using liquid culture systems to enhance micropropagation efficiency.
16.
Haploid Production
Creating plants with half the usual number of chromosomes to accelerate breeding.
17.
Synthetic Seed Technology
Encapsulating somatic embryos in protective coverings, enabling convenient transport and storage.
18.
Rooting Hormone Optimization
Enhancing root development in vitro for better survival during transplantation.
19.
Bioreactor Culture
Growing plants in controlled bioreactors for more efficient production of plantlets.
20.
In Vitro Conservation
Maintaining plant germplasm in sterile conditions to prevent genetic erosion.
Research Approaches in Green Biotechnology: Transgenic Plants
21.
Gene Cloning
Identifying and isolating specific genes to introduce into target plants.
22.
Gene Knockout
Using techniques like CRISPR-Cas9 to deactivate specific genes for functional analysis.
23.
Gene Overexpression
Inserting extra copies of a gene to increase the production of a desired protein.
24.
Selectable Marker Genes
Inserting genes that confer resistance to antibiotics or herbicides to identify successful transgenic plants.
25.
Promoter Characterization
Studying gene promoters to control where and when a gene is expressed in transgenic plants.
26.
RNA Interference (RNAi)
Introducing small RNA molecules to silence specific target genes.
27.
Agrobacterium-Mediated Transformation
Using the natural transfer of genetic material from Agrobacterium to introduce new genes.
28.
Particle Bombardment
Shooting DNA-coated particles into plant cells for gene transfer.
29.
Genome Editing
Precisely modifying DNA sequences using tools like CRISPR-Cas9 to achieve desired traits.
30.
Phytoremediation Engineering
Creating transgenic plants to absorb and detoxify pollutants from the environment.
31.
Biosensors in Plants
Developing transgenic plants to detect environmental pollutants or pathogens.
32.
Biofortification
Engineering plants to have increased nutrient content, addressing malnutrition.
33.
Plant-Microbe Interactions
Studying the symbiotic relationships between plants and beneficial microbes for improved growth.
34.
Horizontal Gene Transfer
Exploring natural gene transfer mechanisms to introduce new traits into plants.
35.
Virus-Induced Gene Silencing (VIGS)
Using plant viruses to silence specific genes temporarily for functional studies.
36.
Synthetic Biology
Designing and constructing new biological parts or systems to enhance plant functions.
37.
Transgene Promoter Stacking
Combining multiple promoters to achieve complex gene expression patterns.
38.
Transplastomic Plants
Engineering plastid genomes to create transgenic plants with unique traits.
39.
Pharmacrop Biotechnology
Engineering plants to produce pharmaceutical compounds for therapeutic use.
40.
Transgenic Trees
Developing trees with modified traits for improved wood quality or environmental benefits.
Research Approaches in Green Biotechnology: Basic Research
41.
Metabolic Engineering
Modifying metabolic pathways in plants to enhance the production of specific compounds.
42.
Epigenetics Research
Studying heritable changes in gene expression without altering the DNA sequence.
43.
Comparative Genomics
Analyzing the genomes of different species to understand evolutionary relationships and functional conservation.
44.
Functional Genomics
Studying the functions of genes and how they interact within biological systems.
45.
Transcriptome Analysis
Profiling the complete set of RNA molecules produced in a cell to understand gene expression.
46.
Proteomics
Analyzing the complete set of proteins in a cell to identify their functions and interactions.
47.
Metabolomics
Studying the complete set of small molecules (metabolites) in a biological sample to understand metabolic pathways.
48.
Systems Biology
Integrating data from multiple omics approaches to model and simulate complex biological systems.
49.
Phylogenetics
Reconstructing evolutionary relationships among species using genetic data.
50.
Functional Annotation
Assigning functions to genes or proteins based on experimental evidence or computational predictions.
Research Approaches in Green Biotechnology: Therapeutic Research
51.
Pharmaceutical Plant Production
Developing transgenic plants to produce high-value therapeutic proteins, vaccines, and antibodies.
52.
Plant-Based Edible Vaccines
Engineering edible plants to express vaccine antigens, providing oral immunization.
53.
Plant-Derived Anticancer Compounds
Investigating plant compounds with potential anti-cancer properties.
54.
Plant-Derived Antimicrobials
Exploring natural plant compounds for their ability to combat microbial infections.
55.
Herbal Medicine Research
Investigating the therapeutic potential of traditional medicinal plants.
56.
Nutraceuticals from Plants
Studying plants for their potential to provide health benefits beyond basic nutrition.
57.
Bioactive Plant Compounds
Identifying and characterizing plant-derived molecules with potential health-promoting effects.
58.
Phytomedicines for Neurological Disorders
Exploring plant compounds for their effects on brain health and neurological conditions.
59.
Plant-Based Anti-Inflammatory Agents
Investigating plant compounds with anti-inflammatory properties.
60.
Plant-Derived Natural Products
Analyzing diverse plant species for bioactive compounds that could have therapeutic applications.
Testimonials
VB. Bhavana View on Google
I have completed my 6 month dissertation in NTHRYS biotech labs. The lab is adequately equipped with wonderful, attentive and receptive staff. It is a boon to the students venturing into research as well as to students who would like to garner lab exposure. I had a pleasant experience at NTHRYS thanks to Balaji S. Rao Sir for his constant support, mettle and knowledge. I would also like to give special regards to Zarin Mam for teaching me the concepts of bioinformatics with great ease and for helping me in every step of the way. I extend my gratitude to Vijaya Mam, and Sindhu Mam for helping me carry out the project smoothly.
Durba C Bhattacharjee View on Google
I have just completed hands on lab trainings at NTHRYS in biotechnology which includes microbiology, molecular and immunology and had gained really very good experience and confidence having good infra structures with the guidance of Sandhya Maam and Balaji Sir.
Recommending to any fresher of biotechnology or microbiology field who wants to be expert before joining to
related industry.
Razia View on Google
Best place to aquire and practice knowledge.you can start from zero but at the end of the internship you can actually get a job that is the kind of experience you get here.The support and encouragement from the faculty side is just unexplainable because they make you feel like family and teach you every bit of the experiment.I strongly recommend NTHRYS Biotech lab to all the students who want to excel in their career.
Srilatha View on Google
Nice place for hands on training
Nandupandu View on Google
Very good place for students to learn all the techniques
Sadnaax View on Google
I apprenticed in molecular biology and animal tissue culture, helped me a lot for my job applications. Sandhya and Balaji sir were very supportive, very helpful and guided me through every step meticulously. Helped me learn from the basics and helped a lot practically. The environment of the lab is very hygienic and friendly. I had a very good experience learning the modules. Would recommend
Shivika Sharma View on Google
I did an internship in NTHRYS under Balaji sir and Sandhya maam. It was a magnificent experience. As I got hands-on experience on practicals and I was also provided with protocols and I learned new techniques too.This intership will help me forge ahead in life. The staff is very supportive and humble with everyone. Both sir and maam helped me with my each and every doubts without hesitation.
Digvijay Singh Guleria View on Google
I went for 2 months for different training programs at NTHRYS Biotech, had a fun learning experience. Everything was hands-on training and well organised protocols. Thank you Balaji sir and Sandhya mam for this life time experience.
Anushka Saxena View on Google
I’m a biotechnology student from Dy patil University mumbai and I recently completed my 6 months dissertation project at Nthrys Biotech Labs in Hyderabad. I had a great experience and I would highly recommend this lab to other students as well .
The first thing that I appreciated about Nthrys Biotech Labs was the friendly and supportive environment. Balaji sir and the staff Ragini and Sandhya ma’am were always willing to help me and they were always patient with my questions.
I also felt like I was part of a team and that I was making a real contribution to the companys research.
I learned a lot during my dissertation at Nthrys Biotech Labs not only academically but also personally . I had the opportunity to work on a variety of projects, which gave me a broad exposure to the field of biotechnology. I also learned a lot about the research process and how to conduct experiments.
In addition to the technical skills that I learned, I also developed my soft skills during my internship. I learned how to communicate effectively, how to work independently, and how to work as part of a team.
Overall, I had a great experience at Nthrys Biotech Labs and I would highly recommend this company to other students.
Once again I would like to render a big thank you to Balaji Sir and Vijayalakshmi ma’am for imbibing with all the knowledge along with helping me publish my research paper as well and its all because of them I scored unbelievably well in my final semester.
Nithin Pariki View on Google
Lab equipment and protocols are good, it gives good hands on experience for freshers.
