NEW WORKSHOPS, TRAININGS, PROJECTS @[EMAIL PROTECTED]
DNA RESEARCH CENTRE
Purpose of the Program
The programs goal is to train all the interested individuals to
function as independent researchers in a multidisciplinary environment
focusing on Bioinformatics, Molecular Biology, Oncoinformatics,
Chemioinformatics, Immunoinformatics, clinical informatics, Discovery
informatics, Pharmacoinformatics, Agriinformatics, Biomedical
computation, Application of computation in different branches of life
scinces etc. To achieve this goal we have assembled a team of
researchers specializing in Biostatistics/Statistics, Bioinformatics/
Biomedical, Molecular Biologists, and the biology Nutrition and
cancer. Through a combination of didactic coursework, seminars and
research experiences, trainees will be expected to make im****tant
contributions in the development of statistical methods targeted to
experiments in Different pathological disease and the most dangerous
diseases like cancer and to function as a true collaborator in teams
of biologists, instead of merely as a specialist in setting sample
sizes and performing data analysis of simple experiments.
Eligibility: Graduate/Undergraduates (Biology,any life science/
Chemistry/Computer science)
SCHOLER****PS @[EMAIL PROTECTED]
DRC
Scholar****ps up to 40% may be achieved once you write the scholar****p
test after joining the centre. The percentage of scholar****p will be
completely a waiver from the fee structure and trainees don't need to
pay it.
Scholar****ps may be written from the perspective background of the
trainees. (eg. Biology backround will be given with biology
questions,chemistry with chemistry and computer science with computer
science)
Scholar****ps will comprise the basic questions with a few long answer
question (not more than 350 words).
Every batch we have 4 scholar****ps available
BASIC MODULE
Course duration: (30 Days)
Coursework
Introductory Bioinformatics& overview of Biological Research with
Bioinformatics
Molecular Biology concepts, Biological databases & Database Searching
Bioinformatics & Functional Proteomics
Bioinformatics & Structural Proteomics
Bioinformatics & Expression proteomics
Pairwise and Multiple Sequence analysis (BLAST, FASTA, CLUSTAL W))
Motif and Domain Assignments
Introductory Computational Genomics
Phylogenetic Analysis in Bioinformatics
Live Project (1)
Industrial Project (1)
CORE MODULE
(Course duration: 45 days)
Coursework
Introductory Bioinformatics& overview of Biological Research with
Bioinformatics
Molecular Biology concepts, Biological databases & Database Searching
Bioinformatics & Functional Proteomics
Bioinformatics & Structural Proteomics
Bioinformatics & Expression proteomics
Pairwise and Multiple Sequence analysis (BLAST, FASTA and CLUSTAL W)
Motif and Domain Assignments
Introductory Computational Genomics
Phylogenetic Analysis in Bioinformatics
Mass spectrometry in Proteomics
Homology Modeling
Threading, Protein Interactions
Introduction to SAS and Application to Biological Sciences
Online Lecture
Live Project (2)
Industrial Project (1)
ELECTIVE MODULE
(Course duration 60 days)
Coursework
Introductory Bioinformatics& overview of Biological Research with
Bioinformatics
Molecular Biology concepts, Biological databases & Database Searching
Bioinformatics & Functional Proteomics
Bioinformatics & Structural Proteomics
Bioinformatics & Expression proteomics
Pairwise and Multiple Sequence analysis (BLAST, FASTA and CLUSTAL W)
Motif and Domain Assignments
Introductory Computational Genomics
Phylogenetic Analysis in Bioinformatics
Mass spectrometry in Proteomics
Homology Modeling
Threading
Protein Interactions
Structural Bioinformatics
Ab Initio Structure Prediction
Applied computational Genomics
Protein Modeling and Impact on Protein physical Properties
Introductory Rational Drug Design
SAS with Clinical Data Management
Online lecture
Live Project (2)
Industrial Project (2)
ADVANCE MODULE:
(Course duration: 90 days)
Coursework
Introductory Bioinformatics& overview of Biological Research with
Bioinformatics
Molecular Biology concepts, Biological databases & Database Searching
Bioinformatics & Functional Proteomics
Bioinformatics & Structural Proteomics
Bioinformatics & Expression proteomics
Pairwise and Multiple Sequence analysis (BLAST, FASTA and CLUSTAL W)
Motif and Domain Assignments
Introductory Computational Genomics
Phylogenetic Analysis in Bioinformatics
Mass spectrometry in Proteomics
Homology Modeling
Threading
Protein Interactions
Structural Bioinformatics
Ab Initio Structure Prediction
Applied computational Genomics
Protein Modeling and Impact on Protein physical Properties
Introductory Rational Drug Design
Visualization Tools
Modelling and Threading
Drug Targeting & Design
Simulation studies
Organellar Proteomics and Genomics
Reverse Vaccinology
Antigenicity and Immunigenicity
SAS with Proteomics/Genomics/Clinical Trials)
Online Lectures
Live Project (3)
Industrial Project (3)
FOUNDATION MODULE
Course Duration: (180 days)
Coursework
Introductory Bioinformatics& overview of Biological Research with
Bioinformatics
Molecular Biology concepts, Biological databases & Database Searching
Bioinformatics & Functional Proteomics
Bioinformatics & Structural Proteomics
Bioinformatics & Expression proteomics
Pairwise and Multiple Sequence analysis (BLAST, FASTA and CLUSTAL W)
Motif and Domain Assignments
Introductory Computational Genomics
Phylogenetic Analysis in Bioinformatics
Mass spectrometry in Proteomics
Homology Modeling
Threading
Protein Interactions
Structural Bioinformatics
Ab Initio Structure Prediction
Applied computational Genomics
Protein Modeling and Impact on Protein physical Properties
Introductory Rational Drug Design
Visualization Tools
Modelling and Threading
Drug Targeting & Design
Simulation studies
Organellar Proteomics and Genomics
Reverse Vaccinology
Antigenicity and Immunigenicity
SAS Proteomics
SAS Genomics
SAS Clinical Trials)
Online Lectures
Any Two super specialized Courses listed below (In the New course
Listings)
Live Project (3)
Industrial Project (5)
WHATS NEW @[EMAIL PROTECTED]
DNA RESEARCH CENTRE
IMMUNOINFORMATICS:
(Course Duration: 30 days)
Immunoinformatics is the application of informatics techniques to
molecules of the immune system. One of its principal goals is the
effective prediction of immunogenicity, be that at the level of
epitope, subunit vaccine, or attenuated pathogen. Immunogenicity is
the ability of a pathogen or component thereof to induce a specific
immune response when first exposed to surveillance by the immune
system, whereas antigenicity is the capacity for recognition by the
extant machinery of the adaptive immune response in a recall response.
In thisbook, we introduce these subjects and explore the current state
of play in immunoinformatics and the in silico prediction of
immunogenicity.
Coursework
Introductory Bioinformatics
Accessing Genome Agencies
Data Mining
Antigen presentation
Computational chemistry
Computational vaccinology
Vaccine Screening
Immunoinformatics Core
MHC binding
Mass Spectrometry Applications to Immunology
Vaccine design
Major Research Project
METABOLOMICS:
(Course Duration: 30 days)
Coursework
Introduction to Mass Spectrometry and Database Searching
Protein pathway databases
Small Molecule Analysis
Quantitative Omics
Enzymology
Metabolic Pathway predictions
Metabolic pathway Analysis
Metabolomics and Advanced Technologies.
Sample preparation (Optional)
Metabolic Data analysis.
Application of SAS to Metabolomics
Major Research Project
PATTERN RECOGNITION IN BIOLOGY:
(Course Duration: 30 days)
Coursework
Integrative Bioinformatics
Datasets and databases for Biological Sequence Acquisition
Representation Related problems in pattern Recognition
Statistical Learning and application of Pattern Recognition
Regulatory Sequence Analysis
Threading
Systems Biology for pattern recognition
SAS in pattern Recognition
Major Research Project
PHARMACOINFORMATICS:
(Course Duration: 45 days)
Pharmacy Informatics is the realization of informatics in a cost
effective environment that benefits the Pharmacist and the practice of
Pharmacy through utilization of efficacious systems and tools.
Pharmacy Informatics is also a mind set that spawns from the very
depths of Healthcare and Technology as a whole. Indeed, Pharmacy
Informatics is as actively a part of Healthcare Informatics as the
left arm is part of the body. And while systems may be designed
strictly for the practice of Pharmacy, it is folly to attempt to
create them without acknowledging Healthcare as a whole. It is of an
even higher im****tance today when informatics is pu****ng us to link
our healthcare systems together to share information.
Coursework
Introductory Bioinformatics
Pharmaceutical Databases
Robotics and automation in pharmacy
1=2E Technical cybernetics
1=2E Introduction to Pattern recognition
2=2E Sensors
3=2E Artificial intelligence
4=2E Knowledge based information systems
5=2E Computer-aided decision sup****t
2=2E Pharmacy automation
1=2E Automated medication dosage, filling, and packaging
2=2E Coding of information, bar-codes
3=2E Medication distribution and management, inventory control
4=2E Computerized narcotic and IV systems
Integrated health care information systems
1=2E Point-of-care information systems
2=2E Electronic patient record
3=2E Computerized medical record system
4=2E Health care financial systems
5=2E Health care management and planning systems
Legal and ethical aspects of information technologies
1=2E Health information confidentiality rules
2=2E Security and privacy in medical information systems
3=2E Biometrics
4=2E Accountability and liability of information users and providers
5=2E Intellectual property protection and copyright
6=2E Regulation of the information infrastructure
Commercial applications of information technologies
1=2E Marketing and advertising
2=2E Financial and trade transactions (Electronic Data Interchange)
Patient education and continuity of pharmacy care
1=2E Drug information systems
2=2E Public health information systems
3=2E Information technologies in pharmaceutical error prevention
Intellectual Property Rights and Pharmaco informatics
Major Research Project
MEDICAL AND CLINICAL INFORMATICS:
(Most Beneficial for Health care and Clinical Research Students and
Professionals)
The primary goal our program in Medical and Clinical Informatics is to
educate the future developers and managers of health care information
systems. Individuals with a variety of backgrounds are provided a
strong technical grounding in medical informatics, health and
medicine, computer science, and research methods so that they may
assume positions that require a thorough understanding of both
information technology and the health care environment. After this
course a solid knowledge base in medical and clinical informatics may
be achieved, some of them are:
=B7 Aspirants should be able to apply basic principles of biomedical
informatics to problems in different domains of health and
biomedicine.
=B7 Aspirants should have operational knowledge of the human body in
health and disease as well as the organization of the health care
system.
=B7 Aspirants should be able to apply principles of organizational
behavior and management skills to biomedical informatics problems.
=B7 Aspirants should be able to apply basic statistics and quantitative
or qualitative research methods to evaluative research projects.
=B7 Aspirants should be able to apply basic computer science principles
to problems in health and biomedicine.
=B7 Aspirants will be adept in the tools of advanced scholar****p,
including the ability to address ethical issues in the field,
communicate effectively in oral and written form, and complete a
thesis or capstone.
The programs are primarily designed to meet the educational needs of
two types of students - the health care professional seeking
additional training in information management and technology and the
non-health care professional seeking training in health information
and technology. The overall curriculum for the program is unique, with
the exception that you don't need to have a deep knowledge of Clinical
Research.
Coursework
Biomedical Informatics
Bioinformatics Survey
Clinical and Biomedical data Analysis
Clinical Systems in Computational Biology
Consumer Health Informatics
Information Retrieval
Knowledge Structures
Text Mining
Biomedical & Clinical Practice
Introduction to Biostatistics
Design and Evaluation in Research
Oncoinformatics
SAS and clinical Research Together
Project
CHEMIOINFORMATICS/CHEMICAL INFORMATICS
(Duration 30 Days)
Introduction to chemioinformatics
Chemical Databases and datasets
Small molecule hits
Designing chemical structures
Lead design and optimization
Chemical reaction indexing
Pharmacophore analysis
Chemical patents
Computer simulations
FDA in drug trials
Major Research project
WHY TO LEARN SAS 9.1.3 MODULES @[EMAIL PROTECTED]
DNA RESEARCH CENTRE
http://www.pharmabiz.com/article/detnews.asp?articleid=3D11388§ionid=3D=
46
Pharmacy education in India is primarily focused on pharmaceutics,
pharmaceutical chemistry, pharmacology and pharmacognosy. Some
institutions have taken vast initiatives in restructuring course
curricula and introducing new courses namely pharmaceutical
management, clinical pharmacy, pharmaceutical medicine and regulatory
affairs etc. at B.Pharm, M.Pharm, as well as PhD level.
Typically, job scenarios involve pharmacist, medical representative,
product management, teaching, and research & development positions.
Our pharmacists can have a vital role in monitoring clinical trials,
patient data management and Statistical Analytical Software (SAS)-
programming which involves United States FDA regulations.
Discovering and developing safe and effective new medicines is a long,
difficult and expensive process: Preclinical Testing -->
Investigational New Drug Application (IND) --> Clinical Trials, Phase-
I --> Phase-II --> Phase-III --> New Drug Application (NDA) -->
Approval --> Phase-IV.
SAS-programming is very im****tant from preclinical testing to approval
stages. Here, when you see the sequence of drug development and
approval process you can yourself realize how im****tant clinical
trials and SAS-programming areas are and there is an urgent need of
starting training programs in these areas. How?
Training program on how to effectively monitor clinical trials can be
designed based on Good Clinical Practices and ICH guidelines. Various
topics may include: design of protocol, case re****t forms, re****ting
serious adverse events, early phase clinical evaluation, processing
clinical research data, clinical database, data display, re****t and
analysis plan, clinical trial re****t, standard operating procedures in
regulatory affairs, auditing of clinical trials and new drug
application etc.
Clinical trials data arriving on case re****t forms is fairly standard,
for example demography, adverse event, medications, laboratory etc
hence can be stored in fairly standard data structures. Designing
clinical data structures for data entry is im****tant, but it should be
done with some understanding of the analysis that will be performed.
Once an appropriate clinical data structure is arrived at for data
entry, it is im****tant to then determine how to best use the data in
the SAS analysis environment.
US FDA considers SAS validation an im****tant component of the quality
assurance, reliability & accuracy of much of the information used to
approve & develop drugs and medical devices. Hot spots and crucial
points in pharmaceutical research & developments are submission of
various clinical re****ts to FDA and these clinical re****ts need to be
created using SAS-programming techniques. Our educational institutions
must create structured training program in these high tech areas so as
to create pharmacist + IT (SAS) manpower for future. Here is an
outline depicting in which direction we need to proceed further so
that our professionals can play at international level and enjoy a
unique & challenging job profile: (1) Clinical Re****t Generation for
example: (a) Adverse Event tables and listings, (b) Demographics, (c)
Safety, (d) Efficacy, (e) Lab Data, (2) Custom Derived SAS data sets,
(3) SAS-Programming for NDAs (New Drug Applications), (4) Experience
with Phases I-IV, (5) Data Cleaning, (6) Statistical Analysis using
SAS tools and (7) Data Warehousing.
After acquiring a combination of B.Pharm, or M.Pharm, or even PhD and
Clinical SAS-Programming technical know-how; what kind of job profile
is prevailing in pharmaceutical industry is a logical question which
our graduates may have in mind. The answer is job description may
include U.S. and International regulatory submissions, Creation of
data marts for data mining, Analysis of clinical trial,
pharmacokinetic, epidemiological and product stability data using
statistical analysis software, Development of integrated data analysis
systems, Design of complex graphical re****ting software with SAS/
GRAPH, Validation of applications software and data, Creation of user
friendly interfaces with SAS/FSP and SAS/AF, Extensive use of the SAS
macro facility to provide reusable software, UNIX system
administration and networking with Novell and TCP/IP
SAS CONTENTS VERSION 9.1.3
MODULE: 1
Course Duration: 30 Days
C and C++
BASE/ SAS
SAS /PROCEDURES
MODULE: 2
Course Duration: 60 Days
BASE/ SAS
SAS /PROCEDURES
SAS/MACROS
SAS/ACCESS
SAS/CONNECT
SAS/ETS
MODULE: 3
Course Duration: 90 Days
BASE/ SAS
SAS /PROCEDURES
SAS/MACROS
SAS/ACCESS
SAS/CONNECT
SAS/ETS
SAS/STAT
SAS/QC
SAS/Genetics
SAS/ETL
SAS/OLAP
PROC SQL
* CANDIATES MAY CHOOSE THE MAJOR RESEARCH PROJECT ON DRUG DESIGN, SAS,
VACCINOLOGY, DISEASE STUDIES ETC OF THEIR OWN INTEREST WHICH MAY BE
PROVIDED AND GUIDED BY DRC.
* DRC PROJECTS ARE STRICTLY LIVE AND INDUSTRIAL AND CAN BE USED FOR
THE PUBLICATION SINCE ALL THE STUDENTS WILL BE PROVIDED WITH MOST
UPCOMING RESEARCH TOPICS.
For the most relevant list of the projects at DRC you may email/call
us.
WET LABS TECHNOQUES AND MODULES @[EMAIL PROTECTED]
DNA RESEARCH CENTRE
Proficiency in Microbial Biotechnology
1=2E Isolation of Micro-organisms from soil by serial dilution
2=2E Pure culture preparation
3=2E Identification of organisms by
a=2E Staining techniques
i=2E Grams staining
ii. Flagelar staining
iii. Endos****e staining
iv. Capsular staining
b=2E Biochemical tests
i=2E IMVIC test
ii. Caesein hydrolysis
iii. Starch hydrolysis
iv. Gelatin liquification
v=2E Catalase test
vi. TSI test
4=2E Growth curve
5=2E Mutation studies
6=2E Bacterial conjugation
Proficiency in Recombinat DNA Technology
1=2E Isolation of plant DNA
2=2E Purification of plant DNA
3=2E Isolation of animal DNA
4=2E Isolation of Plasmid DNA
5=2E Isolation of genomic DNA from prokaryotes
6=2E Quantitative and Qualitative analysis of DNA
7=2E Agarose Gel Electrophoresis
8=2E Elusion of inserts from the Gel
9=2E Restriction Digestion
10. Ligation
11. Transformation
12. Gene cloning and expretion
13. Southern Blotting
14. Western Blotting
Proficiency in Enzymology
1=2E Isolation of micro-organisms from soil by serial dilution
2=2E Pure culture preparation
3=2E Screening for the enzyme production
4=2E Batch Culture
a=2E Solid state fermentation
b=2E Submerged fermentation
5=2E Enzyme purification
a=2E Salt precipitation technique
b=2E Dialysis
6=2E Ion Exchange Chromatography
7=2E Enzyme assay
8=2E Quantitative estimation of Protein
9=2E Enzyme kinetic
a=2E pH
b=2E Temperature
c=2E Substrate conc
d=2E Activator
e=2E Inhibitor
10. SDS - PAGE
11. Immobilization of Enzyme
Proficiency in Immunotechnology
1=2E Isolation & Purification of Ig G from blood sample
a=2E Salt Precipitation
b=2E Dialysis
c=2E Ion exchange Chromatography
d=2E Quantitative estimation of proteins
e=2E SDS PAGE
2=2E ODD test
3=2E RID test
4=2E Immuno electrophoresis
5=2E HCG test (Pregnancy test)
6=2E Blood Grouping and Rh typing
7=2E ELISA
8=2E Widal
9=2E RPR test
Proficiency in Plant Tissue Culture
1=2E Instrumentation in Plant tissue culture
i=2E Hot air oven
ii. Autoclave unit
iii. Culture vessels and racks
iv. Incubation chamber
v=2E Rotary Shaker
vi. Deep freezer
vii. Laminar air flow unit
2=2E Sterilization technique:
i=2E Glassware
ii. Explant preparation
3=2E Preparation of culture media:
i=2E Preparation of stock solutions of MS, B5, Nitsch and LS media
ii. Preparation of hormone stocks solution.
iii. Preparation of MS, Gamborgs, Nitsch and LS media
4=2E Callus culture:
i=2E Initiation and maintenance of callus from the inter nodal explants
of stem
explants of any available plant material
ii. Embryo culture
iii. Anther culture
iv. Meristam culture
5=2E Techniques involved in Agrobacterium mediated gene transformation
i=2E Leaf Disc Preparation
ii. Co-cultivation
iii. Selection media transfer
6=2E Encapsulation of embryo
Proficiency in Industrial Microbiology
1=2E Sterility Techniques
2=2E Isolation of Micro-organisms from natural sources
3=2E Staining Technique
i=2E Grams staining
ii. Endos****e staining
4=2E Biochemical Tests
i=2E Gelatin liquification
ii. Catalase test
iii. TSI test
5=2E Bacterial Growth Curve
6=2E Mutation Studies
7=2E Screening of Micro Organisms for Industrial applications
i=2E Caesein hydrolysis
ii. Starch hydrolysis
iii. Cellulose hydrolysis
9=2E Antibiotic assays
10. Quality control of milk
11. Water analysis
Proficiency in Clinical Microbiology
1=2E Isolation of Micro-organisms from clinical sample
2=2E Grams staining
3=2E IMVIC test
4=2E Starch hydrolysis
5=2E Gelatin liquification
6=2E H2S production test
7=2E ELISA test
8=2E Widal test
9=2E Detection of blood group and Rh factor
10. Catalase test
11. Pregnancy test
12. Detection of urinary protein
13. Detection of urinary glucose
14. Detection of ketone bodies in urine sample
15. Heamoglobulin test
16. RPR test
17. WBC count
Details of Advance Modules
ADVANCE MODULE I - Microbial Biotechnology
1=2E Fundamentals in Microbiology
2=2E Microbiological culture media and its im****tance in Biotechnology
3=2E Sterilization Techniques
4=2E Isolation of Micro-organisms from air and soil
5=2E Pure culture preparation
6=2E Identification of organisms by
a=2E Staining techniques
b=2E Biochemical tests
7=2E Growth curve
Applied Techniques
1=2E Antibiotic assays
2=2E Mutational studies by Replica plating method
3=2E Bacterial conjugation
4=2E Screening for Enzymes
5=2E Antogonism studies
6=2E Isolation of protozoa from samples
7=2E Isolation & Identification of fungi
8=2E Production of secondary metabolites (Acids, Wine, Enzymes,
Antibiotics)
ADVANCE MODULE II - Recombinant DNA Technology
I=2E Fundamentals
1=2E Isolation of plant DNA SDS method,C-TAB method
2=2E Isolation of RNA
3=2E Isolation of animal DNA
4=2E Isolation of Plasmid DNA
5=2E Isolation of genomic DNA from prokaryotes
6=2E Quantitative and Qualitative analysis of DNA
II. Applied Techniques
1=2E Tm of DNA-Melting point of DNA
2=2E Agarose Gel Electrophoresis
3=2E Elusion of inserts from the Gel
4=2E Restriction Digestion
5=2E Ligation
6=2E Transformation
7=2E Gene cloning and expression
8=2E Southern Blotting
9=2E Western Blotting
10. PCR Techniques
ADVANCE MODULE III - Fermentation and downstream Processing
I=2E Fundamentals
1=2E Fermentation Fundamental
2=2E Submerged fermentation
3=2E Solid state fermentation
4=2E Fermentation systems
a=2E Conical flask
b=2E Vessels
c=2E Fermentors
II. Applied aspects depends on the desired products
(Citric acid/Amino acids/ Enzymes/Antibiotics)
1=2E Down stream processing
a=2E Extra cellular
b=2E Intra cellular
2=2E Cell separation techniques
a=2E Centrifugation
b=2E Membrane filtration
c=2E Cell lysing
3=2E Isolation /Purification of desire products
a=2E Precipitation techniques
b=2E Solvent extraction
c=2E Dialysis
d=2E Ion exchange chromatography
e=2E Distillation
III Analysis of Metabolites/Products
1=2E Thin layer chromatography
2=2E Melting point determination
3=2E Spectrophotometer determination
4=2E Titrometric
5=2E Electrophoresis
ADVANCE MODULE IV - Immunological Techniques
I=2E Agglutination and Precipitation Methods
1=2E Blood grouping and Rh typing
2=2E Fibril Agglutination test(Widal test)
3=2E VDRL Test/ RPR
4=2E Hbs Ag Test
II. Gel diffusion Methods
1=2E Ouchterlony Double Diffusion
2=2E Single Radial Immunodiffusion
3=2E Immunoelectrophoresis
4=2E Counter current immunoelectrophoresis
5=2E Rocket immunoelectrophoresis
ONLINE TRAININGS WITH DNA RESEARCH CENTRE
All the listed trainings except the wetlab Practicals are available
via Online Mode via our web based facilities. For details about the
Guides available call or write to us.
SHORT DURATION COURSES @[EMAIL PROTECTED]
DNA RESEARCH CENTRE
*Courses for one week and 20days are available, for details email or
call us.
ONLY PROJECT COMPLETION (WITHOUT TRAINING) : Upto 45 days @[EMAIL PROTECTED]
4750/-
DIPLOMA FOR 3,6 AND 9 MONTHS (Can be pursued Live or online)
*DRC Courseware (Study materials) are made available for both online
and live trainees.
CONFIRMING TRANING/PROJECT/WORKSHOP WITH DRC
If any of our programme interests you, please submit an application on
a plain paper along with your CV stating the purpose for which you
require training and the expected duration of training. A letter of
recommendation from one of your teacher/guide/Head of Department
including the Demand draft for
INR 751/- (For Indian Nationals),
USD 150 (For International Applicants) International applicants may
use the wire transfer facility.
in favour of DNA Research Centre, Payable at Hyderabad/Secunderabad
(India) along with the Photocopies of the credentials and certificates
shall be sent to:
DNA Research Centre
12-13-1249, 1st floor
Besides Andhra Bank, opp.appolo Clinic
Tar****a Main Road
Secunderabad-500017
India
(Note: Students opting for more than 2 or more months course may get
the registration number by sending the DD for INR 6751/- and rest of
the fees may be paid once they join the Respective batch.)
Interested candidates may register for the programmes (Who are
choosing for the batches after July 2007) till on or before August
28th 2007. Late fine of INR 500/- (For Indian Nationals) USD 50 For
International Applicants will be charged for the candidates who fail
to register in below mentioned time. Once the deadline is over
registration is only possible if the vacancies arise. Maximum strength
per batch is 10.Once the seats are full applications will not be
entertained.
Candidates should email the DD details to
dnaresearchcentre@[EMAIL PROTECTED]
(Indian nationals)
dnaresearchcentre@[EMAIL PROTECTED]
(International Applicants)
Organization website: http://www.dnares.in
Registrations are open for upcoming Batches
10th September 2007 (Registration without late fine till 1st September
2007)
8th October 2007 (Registration without late fine 1st October 2007)
12th November 2007 (Registration without late fine till 3rd November
2007)
10th December 2007 (Registration without late fine till 1st December
2007)
7th of Jan 2008 (Registration without late fine 10th December 2007)
Helpline numbers: +91-40-40180502/9247438983 (For Indian Nationals)
: +91-40-40180503 (For International
Applicants)
HOW TO REACH DRC
Hyderabad and secunderabad are known as twin cities of India.
Hyderabad is known as genome vally because of presence of most
Biological Research labs in the city. It is well connected by Train,
Bus or Air routes from every part of country. Once your enter the city
enquire to reach Tar****a. Once you cross NIN (National institute of
nutrition take left turn and DRC is at walkable distance on Tar****a -
Lalapet main road).We are located near the same location where the
Most renound labs like CCMB, IICT and NIN are located.
ACCOMODATION:
DNA Research Centre has its own Guest house as well as tie up with the
nearby guest houses with fully furnished facilities and homely
environment. Trainees seeking accommodation shall inform us by email
or phone so that there seat may be booked accordingly.
Accomodation @[EMAIL PROTECTED]
2500/- month (Including Lodging and fooding)
FOR ANY FURTHER ASSISTANCE/QUERRIES WE WILL BE HAPPY TO HEAR YOU AT
DNA Research Centre
12-13-1249, 1st floor
Besides Andhra Bank, opp. Appolo Clinic
Tar****a Main Road
Secunderabad-500017
Andhra Pradesh (India)
Website: http://www.dnares.in
Email: dnaresearchcentre@[EMAIL PROTECTED]
+91-40180502/9247438983
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