000 | 00382nam a2200145Ia 4500 | ||
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999 |
_c146121 _d146121 |
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020 | _a9780716799023 | ||
040 | _cCUS | ||
082 |
_a575.1 _bGRI/I |
||
100 | _aGriffiths, Anthony J. F. [et al.]. | ||
245 | 0 |
_aIntroduction to genetic analysis/ _cAnthony J. F. Griffiths. [et al.]. |
|
250 | _a9th ed. | ||
260 |
_aNew York: _bW.H. Freeman & Co., _c2008. |
||
300 |
_axxiii, 838 p.: _bill.; _c28 cm. |
||
505 | _a1 The genetic approach to biology Part 1 Transmission genetics 2 Single-gene inheritance 3 Independent assortment of genes 4 Mapping Eukaryote chromosomes by recombination 5 The genetics of bacteria and their viruses 6 Gene interaction Part 2. From DNA to Phenotype 7 DNA: structure and replication 8 RNA: transcription and processing 9 Proteins and their synthesis 10 Regulation of gene expression in bacteria and their viruses 11 Regulation of gene expression in Eukaryotes 12 The genetic control of development 13 Genomes and genomics Part 3. Mutation, variation and evolution 14 The dynamic genome 15 Mutation, repair, and recombination 16 Large-scale chromosomal changes 17 Population genetics 18 Quantitative genetics 19 Evolutionary genetics Part 4. Techniques 20 Gene isolation and manipulation A Brief guide to model organisms Appendix A: Genetic nomenclature Appendix B: Bioinformatics resources for genetics and genomics | ||
650 | _aGenetics | ||
650 | _aGenetic Inheritance | ||
650 | _aGenetic Correlation | ||
942 | _cSC79 |