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Bioinformatics, Computer applications & Quantitative Biology
- Furnish knowledge and awareness about the basic principles and concepts of Bioinformatics, Mathematics and Computer.
- Illustrate the application of Bioinformatics Computer Applications, Mathematics and Biostatistics in biology.
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ZOL 322 |
Bioinformatics, Computer Applications & Quantitative Biology
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Students will –: CO67: Provide insight into the key concept and analytical methods used in bioinformatics. CO68: Acquire knowledge about sequence similarity search methods like DOT PLOT, heuristic and dynamic method for sequence analysis and alignment. CO69: Assess basics of bioinformatics in Phylogenetic analysis and prediction of structure of Proteins and nucleic acids using it. CO70: Deduce application of mathematics in biology basic rules of Matrices and vectors, Exponential functions, Periodic Functions, Differentiation and Integration. CO71: Expedite foundation on statistical methods to enable students to compute and interpret biological parameters statistically. |
Approach in teaching: Guest lectures, Reading assignments, Demonstration, PowerPoint presentation
Learning activities for the students: Self-learning assignments, Effective questions, Simulation, Seminar presentation, Giving tasks
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Class test Semester end examinations, Quiz Assignments, Presentation Surprise test Open book test |
- The Genbank sequence database
- Structure database
- Sequence analysis
- Sequence Alignment and database searching
- Practical aspects of multiple sequence alignment
- Phylogenetic analysis
- Information retrieval from Biological database
- NCBI data model
- Predictive methods using Protein sequences
- Predictive methods using Nucleotide sequences
- ACEDB:A database for genome information
- Submitting DNA sequence to the database
- Computer Basics
- MS-Office
- Operating Systems(Unix andDOS)
- Hardware andSoftware
- Multimedia
- NetworkConcepts(LAN,WAN)
- Internet
- Web Servers, WebAccess
- Security
- HTML,HTTP
- Matrices and vectors(General idea – addition ,subtraction, Scalar multiplication, multiplication of matrices)
- Exponential functions(definition & Graph)
- Periodic Functions( definition& Graph)
- Differentiation( Rules of differentiation)
- Integration(Rules of indefinite & definite integration)
- Central tendency-Mean, median and mode
- Graphical & diagrammatic representation( pie chart, bar diagram, histogram, frequency polygon, frequency curve)
- Measures of dispersion, range, Q.D, standard deviation and coefficient of variation
- Probability distribution(Elementary idea about)
- Elementary idea of sampling distribution
- Standarderror
- Tests of significance- t-test(1 population & 2 population test), Chi-square( independence of attributes)
- Simple correlation (Karl Pearson method) & regression
- ANOVA( 1 way & 2 way classification)
- Essential Bioinformatics, JinXiong, John Wiley and Sons. 2006.
- Introduction to Bioinformatics, A Teresa and D P Smith, Prentice Hall, 1999.
- Statistical Methods in Biology, N T J Bailey, Cambridge University Press, 1995.
- Statistics for Biologist, R C Campbell, Cambridge University Press, 1989.
- Bioinformatics, A practical Guide to the Analysis of Genes and Proteins, (2nd edition), A D Baxevanis, and B F Ouellette, John Wiley and Sons, 2002.
- Fundamentals of Biostatistics, Khan, Publishing Corporation, 1999
- Biostatistics: A Foundation for Analysis in Health Sciences, (6th edition), W W Daniel, John Wiley and Sons Inc., 1995.
- Instant notes, Bioinformatics, Westhead, Parish, and Twyman, (1stedition), Bios Scientific Publishers Ltd., 2003.
- Introduction to Bioinformatics, A M Lesk, Oxford University Press, 2002.
- Molecular databases for Protein sequence and Structure studies, J A Sillince and M Sillince, Springer Verlag, 1991
- Practical statistics for Experimental Biologists, A C Swardlaw, John Wiley and sons Inc., 1985
- Sequence Analysis Primer, Gribskov and Devereux, Stockton Press, 1989
