Please check Drug designing Internship details below.
Click Here to View Drug designing Internship Program Structure
Traversing Diverse Drug designing Research Horizons: Specialized Research Methodologies and Varied Topics Unveiled
Research Methodologies focussed for Internship students under Drug designing:
Focussed Research Areas under Drug Designing Internship:
Note: Topics will be allocated based on availability / duration.
1. Personalized Medicine in Drug Design
Developing drugs tailored to an individual s genetic makeup and specific disease characteristics.
2. Immunotherapy Drug Development
Designing drugs that modulate the immune system to target diseases like cancer and autoimmune disorders.
3. RNA-Based Therapeutics
Exploring the use of RNA molecules for targeted therapies and gene regulation.
4. Gene Editing for Drug Delivery
Investigating CRISPR and other gene-editing technologies for precise drug delivery.
5. Drug-Drug Interaction Prediction
Using computational methods to predict potential interactions between multiple drugs.
6. Nanotechnology in Drug Delivery
Developing nanoscale drug carriers for improved targeting and bioavailability.
7. Antibiotic Resistance Mitigation
Designing novel antibiotics and strategies to combat antibiotic-resistant bacteria.
8. Epigenetic Drug Discovery
Targeting epigenetic modifications in diseases like cancer and neurological disorders.
9. Proteolysis-Targeting Chimeras (PROTACs)
Developing small molecules that induce targeted protein degradation for disease treatment.
10. Artificial Intelligence in Drug Discovery
Utilizing AI algorithms for drug candidate prediction, optimization, and biomarker discovery.
11. Metagenomics in Natural Product Discovery
Exploring the genetic potential of microbial communities for drug leads.
12. GPCR-Targeted Drug Development
Targeting G protein-coupled receptors for diseases like cardiovascular conditions and psychiatric disorders.
13. Peptide-Based Therapeutics
Designing peptides as therapeutic agents for various diseases.
14. Drug Repurposing
Investigating existing drugs for new therapeutic applications, often aided by computational methods.
15. Organ-on-a-Chip Technology
Mimicking human organ functions on microchips to study drug responses and toxicity.
16. Immuno-Oncology
Developing immunotherapies to harness the immune system against cancer.
17. Targeted Protein Degradation
Exploiting the ubiquitin-proteasome system for selective protein degradation as a therapeutic strategy.
18. Chemoproteomics
Profiling the interactome of small molecules in cells to understand drug mechanisms.
19. Biomimetic Drug Design
Drawing inspiration from natural structures and processes to create drug molecules.
20. Systems Pharmacology
Integrating computational models to understand drug effects on complex biological systems.
21. Metabolic Engineering for Drug Production
Modifying microorganisms to produce complex drug compounds efficiently.
22. Antibody-Drug Conjugates (ADCs)
Combining monoclonal antibodies with cytotoxic drugs for targeted cancer therapy.
23. Artificial Intelligence in Drug Formulation
Using AI to optimize drug formulations, dosages, and delivery methods.
24. Tumor Microenvironment Targeting
Developing drugs that target the unique conditions within the tumor microenvironment.
25. Drug-Device Combination Products
Integrating drugs with medical devices for improved therapeutic outcomes.
26. DNA-Encoded Libraries (DELs)
Utilizing DNA tags to create vast libraries of chemical compounds for high-throughput screening.
27. Immunoproteomics
Identifying and characterizing immune-related proteins for vaccine and immunotherapy development.
28. Quantum Computing in Drug Discovery
Exploring quantum algorithms for simulating complex molecular interactions.
29. Synthetic Biology for Drug Synthesis
Designing biological systems to produce complex drug molecules.
30. Drug Delivery to the Brain
Developing strategies to overcome the blood-brain barrier for neurodegenerative disease treatments.
31. Biomarker Identification
Discovering biomarkers that indicate disease presence, progression, or treatment response.
32. CRISPR-Cas9 for Genetic Disease Therapy
Using CRISPR gene editing to correct genetic mutations responsible for inherited diseases.
33. Chemogenomics
Integrating chemical and genomic data to understand drug-target interactions on a large scale.
34. AI-Driven Drug Screening in Drug Repurposing
Utilizing AI algorithms to identify potential new uses for existing drugs.
35. Epitranscriptomics
Studying RNA modifications and their role in disease, potentially leading to RNA-based therapeutics.
36. Patient-Derived Organoids
Growing patient-specific miniature organs for drug testing and personalized medicine.
37. Antibody Fragment Therapeutics
Developing smaller antibody fragments as therapeutics with enhanced tissue penetration.
38. Cryo-Electron Microscopy in Drug Design
Visualizing protein structures at near-atomic resolution to aid in drug development.
39. Viral Vector-Based Gene Therapies
Using engineered viruses to deliver therapeutic genes for genetic disorders.
40. In Silico Clinical Trials
Simulating the entire drug development process digitally, from molecule design to clinical trials.
41. Metabolomics in Drug Safety
Using metabolomics to assess the safety and toxicity of drug candidates.
42. Gene Therapy Vectors
Developing safer and more efficient vectors for gene therapy delivery.
43. RNA Interference (RNAi) Therapeutics
Harnessing RNAi mechanisms to silence disease-causing genes.
44. Artificial Intelligence for Drug Side Effect Prediction
Predicting potential side effects of drugs using AI-driven models.
45. Biomaterial-Based Drug Delivery
Designing drug delivery systems using biocompatible materials for targeted therapy.
46. Drug-Induced Organ Toxicity Modeling
Developing models to predict and mitigate drug-induced organ damage.
47. Drug-Drug Interaction Networks
Mapping and analyzing interactions between multiple drugs within biological systems.
48. Antibiotics from Microbiomes
Mining the human microbiome for novel antibiotic compounds.
49. Optogenetics in Drug Discovery
Using light-sensitive proteins to control cellular responses for drug screening.
50. Non-Coding RNA Therapeutics
Exploring the therapeutic potential of non-coding RNAs like microRNAs and long non-coding RNAs.
51. Synthetic Peptide Libraries
Creating diverse peptide libraries for the discovery of bioactive peptides.
52. Multitarget Drug Design
Designing drugs that target multiple pathways for complex diseases.
53. Glycoengineering for Drug Delivery
Modifying glycans for improved drug targeting and delivery.
54. DNA Nanotechnology for Drug Carriers
Using DNA nanoscaffolds for targeted drug delivery.
55. Microfluidics in Drug Testing
Utilizing microfluidic devices for high-throughput drug screening and analysis.
56. Electroceuticals
Developing bioelectronic devices and implants to modulate neural circuits for therapy.
57. Quantum Dots in Drug Imaging
Using quantum dots for high-resolution imaging in drug development.
58. Computational Toxicology
Predicting drug toxicity using computational models and big data.
59. Synthetic Biology-Enabled Drug Discovery
Engineering biological systems to produce novel drug candidates.
60. Exosome-Based Therapeutics
Harnessing exosomes for drug delivery and regenerative medicine.
Please communicate with our support team and confirm your focused area before proceeding to joining process / registration process.
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.
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