SUMMER INTERNSHIP PROGRAM - HEREDITY BIOSCIENCES

Heredity Biosciences is excited to announce its Summer Internship Program, tailored for life sciences students seeking a comprehensive, industry-oriented training experience. This program focuses on essential microbiological and molecular techniques and other advanced laboratory skills.

Program Highlights

• Hands-On Training: Practical experience in solid and liquid media preparation, microorganism identification, isolation, culture maintenance, and genomics techniques.
• Equipment Mastery: Familiarization with key laboratory equipment and methods commonly used in biotech research and industrial applications.
• Industry-Relevant Modules: Carefully crafted training modules aligned with the current demands of the biotechnology sector.

Course Modules inside the Curriculum

How to Apply

For further details and to secure your spot in this rewarding program, please contact 7381298980.

Registration Link: Click Here//form

Best regards,
Heredity Biosciences Team

Summer Internship Program - Heredity Biosciences

Course Curriculum Overview:

Our Summer Internship Program at Heredity Biosciences offers students an immersive, hands-on learning experience in various cutting-edge areas of life sciences. The program provides a well-rounded curriculum that focuses on practical exposure, ensuring participants develop skills in critical techniques used across different research fields. Below is the detailed curriculum outline for each specialized course offered:

1. Clinical Microbiology and Genetics

• Microbial Isolation and Culturing Techniques: Techniques for isolating and culturing microorganisms from clinical samples.
• Antimicrobial Sensitivity Testing: Methods for testing microbial resistance to antibiotics.
• Genetic Analysis in Microbes: Identifying genetic markers and mutations in pathogenic microorganisms.
• PCR and Gel Electrophoresis: DNA amplification and visualization for pathogen identification.
• Molecular Biology in Clinical Samples: Use of molecular biology techniques for genetic of pathogens.  

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2. Molecular Biology Techniques

• DNA/RNA Extraction: Isolation of nucleic acids from various biological samples.
• PCR & RT-PCR: Amplification of genes and cDNA synthesis for gene expression studies.
• Gel Electrophoresis: Techniques for separating and analyzing DNA and RNA.

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3. Plant Biotechnology and Molecular Biology

• Plant Tissue Culture: Techniques for the in vitro cultivation of plant tissues.
• Gene Transformation: Introduction of foreign genes into plant cells.
• Molecular Marker Techniques: Use of markers for plant breeding and genetic analysis.
• Plant DNA Extraction: Isolation of genomic DNA for genetic studies.
• Genetic Engineering in Plants: Modifying plants for resistance to pests, diseases, and environmental stresses.

For more information Click Here

4. Environmental Biotechnology and Toxicology

• Biodegradation of Pollutants: Using microorganisms to degrade environmental contaminants.
• Phytoremediation Techniques: Using plants for detoxification of polluted environments.
• Heavy Metal Toxicity Testing: Evaluating the impact of heavy metals on biological systems.
• Biological Monitoring of Pollution: Monitoring environmental health using bioindicators.
• Wastewater Treatment: Biological treatment techniques for cleaning polluted water bodies.

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5. Environmental Microbiology and Genetics

• Microbial Ecology: Study of microorganisms in different environmental contexts.
• Water Quality Testing: Microbial testing for the presence of harmful pathogens in water bodies.
• Microbial Bioremediation: Using microbes to treat contaminated environments.
• Genetic Diversity of Microbes: Understanding the genetic variations in environmental microbial populations.
• Biodiversity Conservation: Role of microbes in maintaining ecological balance.

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6. Food Microbiology and Genetics

• Foodborne Pathogens: Isolation and identification of pathogens responsible for foodborne illnesses.
• Genetic Modification in Food Crops: Genetic techniques for improving food crops.
• Food Safety Testing: Methods for detecting toxins and pathogens in food samples.
• Probiotic Studies: Investigation into beneficial microbes used in food products.

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7. Nanotechnology and Molecular Biology

• Nanoparticle Synthesis: Methods for creating nanoparticles and their biological applications.
• Gene Delivery Using Nanoparticles: Exploring the use of nanoparticles for targeted gene therapy.
• Nanotoxicology: Studying the toxicity of nanoparticles in biological systems.
• Bio-nanotechnology: Integration of biological and nanomaterials for innovative healthcare solutions.

For more information, Click Here

8. Biochemistry Techniques

• Protein Extraction and Purification: Techniques for isolating proteins from biological samples.
• Enzyme Activity Assays: Methods for measuring enzyme activity and kinetics.
• Electrophoresis: Separating proteins and analyzing their molecular weight and charge.
• Chromatography: Techniques for separating biochemical compounds.
• Spectrophotometry: Measuring the concentration of biological molecules using light absorption.

For more information, Click Here

9. Aquaculture Microbiology and Molecular Biology

• Aquatic Microbial Analysis: Identifying and characterizing microorganisms in aquatic environments.
• Fish Health Management: Study of pathogens affecting fish health in aquaculture.
• DNA Barcoding in Aquaculture: Genetic identification of fish species for sustainable farming.
• Water Quality Monitoring: Techniques for testing water conditions in aquaculture systems.
• Microbial Contamination in Fish Feed: Evaluating the microbial safety of fish feed.

For more information, Click Here

Comprehensive Training Module

Focus Areas: Clinical Microbiology | Nanotechnology | Molecular Biology

• Clinical Microbiology Techniques: Sample collection, culture techniques, staining, and biochemical testing Antibiotic susceptibility testing (AST) 
• Nanotechnology in Diagnostics: Synthesis of metal-based nanoparticles for antimicrobial testing, and Green synthesis nanoparticles experiment
• Molecular Biology Foundations: DNA/RNA isolation, Polymerase Chain Reaction (PCR), Gel Electrophoresis, and visualization

For More Information, click here

Key Features of the Program:

• Hands-on Learning: Gain practical experience through laboratory-based projects.
• Mentorship: Receive guidance from industry experts and research professionals.
• Interdisciplinary Approach: Learn various techniques and their applications in real-world research and industry settings.
• State-of-the-Art Facilities: Access to the latest equipment and research tools in a world-class laboratory environment.

Why Choose Heredity Biosciences?

• Expert Guidance: Train with experienced scientists and researchers.
• Career Support: Enhance your job prospects through practical training and industry exposure.
• Global Network: Be part of a growing network of professionals in the field of life sciences.

Enroll today to kickstart your career in life sciences, gain hands-on experience, and make impactful contributions to scientific research.

For more details and to register, visit www.hereditybio.in or contact us at 7381298980.

1. What is the Summer Internship Program at Heredity Biosciences?

The Summer Internship Program is a specialized, career-oriented training initiative designed for life sciences students. It focuses on microbiological and molecular techniques, providing hands-on experience to bridge the gap between academic learning and industry needs.

2. Who can apply for this program?

The program is open to undergraduate, postgraduate, and research students in life sciences, including disciplines such as microbiology, biotechnology, genetics, molecular biology, and related fields.

3. What will participants learn during the internship?

Participants will gain hands-on experience in:

• Solid and liquid media preparation.
• Identification, isolation, and maintenance of microorganisms.
• Genomic techniques, including DNA extraction, PCR, and gel electrophoresis.
• Handling and maintenance of laboratory equipment.

4. How long is the internship?

The duration of the program is typically 1 to 3 Months, depending on the specific training modules chosen.

5. What are the program highlights?

• Industry-oriented curriculum tailored to the biotech sector.
• Practical training on advanced techniques and laboratory methods.
• Certification with grades upon successful completion.

6. Is there a certification provided after the program?

Yes, participants will receive a certificate of training with grades, recognizing their achievements and skills acquired during the internship.

7. What are the benefits of participating in this program?

• Hands-on skill development in advanced techniques.
• Enhanced theoretical and practical knowledge in life sciences.
• Exposure to industry-standard practices.
• Networking opportunities with peers and professionals in the field.

8. Where is the program conducted?

The program is conducted at the Heredity Biosciences laboratory and training facility located in Bhubaneswar, Odisha.

9. How can I apply for the program?

To apply, contact Dr. Gopal at 7381298980 for detailed instructions on the application process.

10. Are there any prerequisites for joining the program?

Participants are expected to have a basic understanding of microbiology, molecular biology, and another experimental module. No prior laboratory experience is required, as the program includes foundational training.

11. Is there a fee for the program?

Yes, a fee is charged to cover training materials, laboratory resources, and certification. Contact us for specific details.

12. What is the application deadline?

The application deadline varies each year. Contact Dr. Gopal for the current schedule.

13. Will this program help in career advancement?

Absolutely! The skills and knowledge gained from this program are highly valued in the biotech industry, improving employability and preparation for further academic pursuits.

14. What should participants bring for the program?

Participants are advised to bring:

• A lab coat 
• A notebook for recording observations and protocols.
• Any additional materials communicated during the application process.

15. Who should I contact for additional questions?

For any further inquiries, please contact:

• Dr. Gopal at 7381298980 or email us at gopalpurohit@hereditybio.in