The aim is to provide an opportunity to gain hands-on training in molecular biology techniques and interact with experts from the subject area.
Part 1: DNA Extraction and Electrophoresis
- DNA Extraction from Human Blood: Learn the techniques to isolate high-quality DNA from human blood samples.
- DNA Extraction from Pathological Bacteria: Master the methods to extract DNA from bacteria-causing diseases.
- DNA Extraction from Tissues: Gain experience in extracting DNA from various tissue samples.
- Agarose Electrophoresis: Perform agarose gel electrophoresis to separate and visualize DNA fragments.
- Primer Designing Using Bioinformatics Tools: Utilize bioinformatics tools to design specific primers for PCR.
Part 2: RNA Isolation and Gene Expression Analysis
- RNA Isolation from Human Blood: Extract high-quality RNA from human blood samples.
- Agarose Formaldehyde Gel Preparation for RNA Electrophoresis: Prepare formaldehyde agarose gels for RNA electrophoresis.
- First Strand cDNA Synthesis: Convert RNA into complementary DNA (cDNA) for subsequent analysis.
- Optimization of PCR Parameters (DNA and RNA): Optimize PCR conditions for both DNA and RNA templates.
- Gene Expression Analysis of Different Primers: Analyze gene expression using different primers through PCR.
- Real-Time PCR-Based Gene Expression Analysis: Conduct real-time PCR for quantitative gene expression analysis.
- Extraction & Purification of Amplified DNA from Agarose Gels: Extract and purify DNA from agarose gels using binding matrix methods.
Part 3: Disease Diagnosis Techniques
- Y-Chromosome Microdeletion Real-Time PCR: Perform real-time PCR to detect microdeletions in the Y chromosome.
- DNA Fragmentation Assay (Halo Sperm Method): Conduct DNA fragmentation assays to assess sperm DNA integrity.
- HLA-B27 Screening by PCR: Screen for HLA-B27 genetic markers using PCR.
- Mutation Analysis for Duchenne/Becker Muscular Dystrophy by MLPA Method: Identify mutations causing Duchenne and Becker muscular dystrophies using MLPA.
- Carrier Detection for Spinal Muscular Atrophy by MLPA Real-Time PCR: Detect carriers of spinal muscular atrophy through MLPA and real-time PCR.
- Factor II Mutation Study by PCR: Analyze mutations in the Factor II gene using PCR.
- Factor V Leiden Mutation Study by PCR: Investigate Factor V Leiden mutations through PCR.
Advanced Clinical Genetics Program
Embark on a transformative journey in molecular biology with our Advanced Clinical Genetics program, designed to offer hands-on training and expert interaction. Delve into cutting-edge techniques across three comprehensive parts:
Part 1: DNA Extraction and Electrophoresis Master the isolation of high-quality DNA from diverse sources such as human blood, pathological bacteria, and tissue samples. Visualize DNA fragments through agarose gel electrophoresis and design primers using advanced bioinformatics tools for PCR applications.
Part 2: RNA Isolation and Gene Expression Analysis Perfect RNA extraction from human blood, prepare agarose formaldehyde gels for RNA electrophoresis, and synthesize first strand cDNA. Optimize PCR parameters for both DNA and RNA and conduct real-time PCR-based gene expression analysis. Learn to extract and purify DNA from agarose gels for further analysis.
Part 3: Disease Diagnosis Techniques Utilize real-time PCR for Y-chromosome microdeletion detection, assess sperm DNA integrity with the Halo Sperm Method, and screen for HLA-B27 markers. Identify mutations responsible for Duchenne and Becker muscular dystrophies and detect carriers of spinal muscular atrophy through MLPA and PCR studies.
Join us today to advance your skills in clinical genetics and transform your career in molecular biology. Visit Heredity BioSciences to enroll and explore more about our program.
Enrolment Contact
hereditybioacademy@gmail.com / 7381298980
Q: What are the qualifications required to enroll in the program?
A: Any life sciences candidates can join the program (BSc, MSc, M.Tech, MBBS, Nursing, and Pharmacy).
Q: Can I enroll in both internship and dissertation training at your institute?
A: Yes, you can. Please mention it on the enrollment form when joining. We will provide two certificates.
Q: Do you provide internships for B.Sc/M.Sc Biotechnology/Microbiology graduates?
A: Yes, we do. Kindly visit our website at https://hereditybio.in/training or connect with us at 7381298980.
Q: Can a biotechnology undergraduate do an internship here? If yes, what is the process of applying?
A: Yes, you can. Kindly connect with our team at 7381298980 or visit our website at https://hereditybio.in/.
Q: Does Heredity Bioscience provide placement assistance to students?
A: Yes, we provide 100% placement assistance. The company has exclusive and non-exclusive tie-ups with various companies. All our programs, whether short-term or long-duration projects, are industry-oriented and designed as per industry requirements. Please visit https://hereditybio.in/placement.
Q: How can I apply for dissertation/project work at Heredity Bioscience?
A: Please share your CV to hereditybioacademy@gmail.com or WhatsApp it to our team at 7381298980.
Q: What are the main training programs for B.Sc/M.Sc Life Sciences students?
A: Clinical Genomics, Clinical Microbiology, and Clinical Microbial Nanotechnology.
Q: Is accommodation provided by the company during the internships?
A: Hostels are available nearby the academy. Our executive will provide you with the details.
Q: How can I pay for my enrollment?
A: Once we receive mail confirmation from your side, we will generate an offer letter that includes bank details and UPI ID for payment.
Q: Do you provide a certificate after completion of the training program?
A: Yes, we will provide a certificate upon completion of the program.
Q: How many centers do you have?
A: We have only one center at Plot No:818, Mayfair Lagoon, Jayadev Vihar, Bhubaneswar, Odisha.
For more details, connect with us at our website https://hereditybio.in
