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Hartl D.L., Jones E.W. — Genetics: Principles and Analysis
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Íàçâàíèå: Genetics: Principles and AnalysisÀâòîðû: Hartl D.L., Jones E.W. Àííîòàöèÿ: In recent decades, few disciplines have experienced the explosion of knowledge and research that genetics has. Inspired in part by controversies and the publicity that this new information generates, many of today's students come to a course in genetics with great enthusiasm. Sustaining this enthusiasm while at the same time teaching students about the beauty, logical clarity, and unity of the subject can be a challenge for any teacher. In the fourth edition of Genetics: Principles and Analysis, Dan Hartl and Beth Jones have written a text that will provide you and your students with a clear, comprehensive, rigorous, and balanced introduction to genetics at the college level. It is a guide to learning a critically important and sometimes difficult subject. But the tools for learning extend beyond the confines of the textbook. Your students will have the opportunity to become active participants in the learning process by making full use of today's teaching and learning technology. Developed as an integrated and unified program, no other textbook will engage your students and connect them to the subject of genetics like Hartl/Jones!
ßçûê: Ðóáðèêà: Áèîëîãèÿ /Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö ed2k: ed2k stats Èçäàíèå: 4-thÃîä èçäàíèÿ: 1998Êîëè÷åñòâî ñòðàíèö: 840Äîáàâëåíà â êàòàëîã: 14.06.2007Îïåðàöèè: Ïîëîæèòü íà ïîëêó |
Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
Ïðåäìåòíûé óêàçàòåëü
33—34 36 36 61—64 35 3'-OH, in nucleic acids 175 30-nm fiber 233 5-bromouracil, mutagenicity of 567—568 A (aminoacyl) site 431 ABO blood group 60—61 68—70 71 638—639 672 Acentric 260 Acquired immune deficiency syndrome (AIDS) 208 213 388 Acridine, misalignment mutagenesis and 571 Acrocentric 260 261 Adaptation 652 Adaptation diversity and 23—24 Adaptation sensory 713—714 Addition rule, probability and 49 Additive 681 Adenine 9 174 175 177 180 Adenosine triphosphate (ATP), RNA synthesis and 418 Adenyl cyclase 468 Adjacent-1 segregation 289 291 295 Adjacent-2 segregation 290 291 295 African mitochondrial Eve, hypothesis of 620 agreeableness trait 731 Agrobacterium tumefaciens 380—381 386 AIDS (acquired immune deficiency syndrome) 208 213 388 Alanine, chemical structure of 413 Albinism 53—54 649 Alcohol dehydrogenase 501 Alkylating agents, mutagenicity of 570 Allele frequency 628—632 Allele frequency calculation of 628—629 Allele frequency enzyme polymorphisms and 629—630 Allele frequency Hardy — Weinberg principle and 635—637 Allele frequency random genetic drift and 660 Alleles 40 Alleles fixed 629 Alleles multiple 60—61 638—639 Alleles wildtype 61 67 Alleles X-linked 639 Allelic identity by descent 646—647 Allelism complementation and 160—161 Allelism of mutations 55—56 Allopolyploidy 263—264 266 Allotetraploidy 263 Allozymes 630 Alpha satellite 247 248 Alternative promoters 500—501 Alternative segregation 291 292 295 Alternative splicing 501—503 Alu sequences 240 Alzheimer's disease 730 Ames test 586 Amino acid replacement 630 Amino acids 12 15 Amino acids chemical structure of 413 Amino acids DNA and 423 Amino acids proteins and 412—415 Amino acids sequence of 181—182 Amino acids structure of 412 Amino terminus 412 414 Aminoacyl tRNA synthetases 431 444—445 Amniocentesis 274 Amnion 274 Amphiuma, genome of 222 Amylopectin 65 246 Anacystis nidulans 614 Analog 213 Analog nucleotide 568—569 Anaphase 85 86 Anaphase I 89 94 Anaphase II 95 Anchor cell (AC) 526 527 Anemia 17—18 20—21 Anemia sickle-cell. 17—18 388 558 Aneuploid 269 Animal behavior 714—724 Animals embryonic development in 514—519 Animals germ-line transformation in 377—380 Animals random mating in 632—639 annealing see “Renaturation” Antennapedia 542 Anterior genes 534 Anthers 266 Antibiotic-resistant mutants 311 348—349 608 609—610 Antibodies 69—70 483—487 Antibody variability 485—487 Anticodons 431 432—433 Antigens 69—70 Antimorph 67 Antiparallel 181 Antirrhinum 67 AP endonuclease 566 578 Apoptosis 524—525 Aporepressor 462 472—473 Apterous 541 Arabadopsis thaliana 389 390 392 544 Arabadopsis thaliana flower development in 545 Archaea 22 613—614 Archenteron 517 Arginine 229 413 Artificial selection 683—687 Artificial selection for learning ability 724—726 Artificial selection long-term 686—687 Ascospores 150 151 154 156 Ascus 150 151 158 Asparagine, chemical structure of 413 Aspartic acid, chemical structure of 413 Aspergillus, mitotic recombination in 158 Assortative mating 633 Astyanax 680 681 682 Asymmetrical single-strand break model 590 591 ATP (adenosine triphosphate), RNA synthesis and 418 Atrial septal defect 691 Attached-X chromosome 134—137 Attachment sites 341—343 Attenuation 473—476 Attenuator 473 Attractants 704—705 AUG (initiation codon) 432 443 Autogamy 614—615 616 Automated DNA sequencing 401—405 Autonomous determination 514—517 Autopolyploidy 263 Autoradiogram 212 228 Autoregulation 462 Autosomes 97 Auxotroph 312 Avery, Oswald 4 Azacytidine 488 AZT 568—569 B form of DNA 177 b-galactosidase 462 463 468 Bacillus amyloliquefaciens 202 383 Bacillus thuringiensis 386 Backcross 41 bacteria 22 Bacteria antibiotic-resistant 311 348—349 Bacteria chemotaxis in 704—714 Bacteria chromosomes of 225—227 Bacteria coordinate regulation in 436 461 Bacteria genetic engineering and 384—385 Bacteria genetic organization of 308—311 Bacteria mutants of 311—312 348—349 Bacteria transformed 3—6 Bacteria transposable elements in 347 Bacterial attachment sites 341—343 Bacterial transformation 312—314 Bacteriophage 1vectors 364 365 Bacteriophage P1 vector 364 365 Bacteriophages 222 308 Bacteriophages as organisms 328 Bacteriophages attachment sites 341—343 Bacteriophages bacteriophage 1 340—345 476—479 Bacteriophages genetics of 328—340 Bacteriophages life cycle of 309—311 Bacteriophages mutants of 330—331 Bacteriophages Pl 390 Bacteriophages repressor 344 Bacteriophages specialized transducing 325 345—346 Bacteriophages T2 6—9 Bacteriophages T4 332—340 Bacteriophages temperate 329 340—346 Bacteriophages virulent 329 331—336 Bamlil (restriction enzyme) 202—205 Band, chromosome 206 234 Barnase 383 384 Barnett, Leslie 442 Barr body 227 Barstar 383—384 Base composition 175—176 177 Base pairing 9—10 177—181 Base pairing complementary 9—10 179—181 Base-analog mutagens 567—569 Base-substitution mutations 557—558 Bases 9 174 Beadle, George W. 322 415 420 behavior 704 Behavior genetics 704—739 Behavior genetics animal behavior 714—724 Behavior genetics chemotaxis in bacteria 704—714 Behavior genetics human behavior, genetic differences in 727—734 Behavior genetics learning 724—727 Benzer, Seymour 334 336 339 442 Bicoid 534—536 538 Bidirectionally 189 Binding site 465 Binomial distribution 106—109 Biochemical pathway 19—20 Bithorax 542 Bivalent 92 Blackburn, Elizabeth H. 249 Blastoderm 529 530 531 535 Blastoderm syncytial 529 Blastula 514 515 Blindness, red-green color 283—286 Blood diseases 297—298 Blood groups ABO 60—61 68—70 71 638—639 672 Blood groups MN 628 635—636 Blunt ends 204 362 Bovine spongiform encephalopathy 724 Box, Joan Fisher 713 Brachydactyly 636 Brachystola magna 96 Branch migration 138 139 587 Brassica napus 383 Brenner, Sydney 439 442 Bridges, Calvin 103 Broad-sense heritability 682 683 685—686 734 Broad-sense heritability of personality traits 731—732 Brookfield, John F.Y. 641 Burke, David T. 393 Caedobacter taeniospiralis 614 Caenorhabditis elegans 222 246 377 389 392 480 513 515—517 520—522 524 Calico cat, X-chromosome inactivation in 277—278 Camera lucida 96 cAMP-CRP complex 468 Campbell, Allan 343 Campbell, Keith, H.S. 380 Cancer Chernobyl disaster and 575—577 Cancer chromosome abnormalities and 297—299 Cancer hereditary nonpolyposis colon 401 Cancer radiation-induced 572 Candidate gene 732—733 Cap, messenger RNA 425 Carbon-source mutants 312 Carboxyl terminus 412 414 Carcinogens, detection of 585—586 Carle, Georges F. 393 Carpels 545 Carrier 53 Cascade effect 537 Casein 503—504 Cassettes 482 CCG repeats, genetic instability of 279—280 cDNA 369—370 386 397 Celiac disease 691 Cell cycle 83—84 Cell fates 514 Cell lineages 519—529 Cellular oncogene 298 Centimorgan 128 Central dogma of molecular genetics 12 13 16 Central limit theorem 674 Centromeres 85 86 Centromeres genetic stability of chromosomes and 260—261 Centromeres structure of 246—247 Chain elongation 421 Chain initiation 421 Chain termination 421—422 Chance, role in evolution 24 Chaperones 414 Chargaff s rules 176—177 Chargaff, Erwin 175—176 180 Charged tRNA 431 Chase, Martha 6—9 Chemoreceptors 709—710 Chemoreceptors methylation of 712 Chemosensors 709 Chemotaxis 704 Chemotaxis cellular components 709—710 Chemotaxis in bacteria 704—714 Chemotaxis molecular mechanisms in 710—712 Chemotaxis mutations affecting 706—709 Chernobyl nuclear accident, genetic effects of 575—577 Chi-square method, genetic prediction and 109—114 Chiasma 93 128 Chickens barred features of 103 Chickens ovalbumin synthesis in 493—494 Chimeric gene 285 Chimeric vectors, detecting 371—372 Chlamydomonas, drug resistance in 608 609—610 Chlorophyll 606 Chloroplasts 605 606 608 613 Chorion 274 Chromatid interference 141 Chromatids 85 86 Chromatin 228—234 Chromatin arrangement in chromosomes 230—234 Chromatin nucleosomes in 228—230 Chromocenter 234 Chromomeres 92 Chromosome abnormalities see “Chromosomes” Chromosome complements 82—83 Chromosome interference 143—144 Chromosome map 127 Chromosome painting 264—266 Chromosome painting of human chromosomes 270—272 273 Chromosomes 81—121 221—257 Chromosomes abnormality in number 260—281 Chromosomes abnormality in spontaneous abortion 280—281 Chromosomes abnormality in structure 260 281—299 Chromosomes acentric 260 Chromosomes acrocentric 260 261 Chromosomes attached-X (compound-X) 134—137 Chromosomes cancer and 297—299 Chromosomes centromere and telomere structure 246—252 Chromosomes centromeres and genetic stability of 260—261 Chromosomes chromatin fibers in 230—234 Chromosomes dicentric 260
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