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Hartl D.L., Jones E.W. — Genetics: Principles and Analysis
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Íàçâàíèå: Genetics: Principles and Analysis
Àâòîðû: 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-th
Ãîä èçäàíèÿ: 1998
Êîëè÷åñòâî ñòðàíèö: 840
Äîáàâëåíà â êàòàëîã: 14.06.2007
Îïåðàöèè: Ïîëîæèòü íà ïîëêó |
Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
Ïðåäìåòíûé óêàçàòåëü
Genetic mapping transformation and 312—314
Genetic markers 129—130 131 144 145 693
Genetic markers DNA polymorphisms as 148—150
Genetic prediction binomial distribution and 106—109
Genetic prediction chi-square method and 109—114
Genetic recombination see “Recombination”
Genetics bacteriophage 328—340
Genetics defined 2
Genetics evolution and 22 649—650
Genetics history of 2 32
Genetics Mendelian 32
Genetics population see “Population genetics”
Genetics reverse 377—382 386
Genetics terminology of 40—41
Genome equivalents 389—390
Genome size 388—390
Genome size analysis by renaturation of 238—239
Genome size evolutionary complexity and 222—224
Genomes 222
Genomes complex, analysis of 388—400
Genomes eukaryotic 235—242
Genomes human 223—224 395—397
Genomes zygote 518
Genotype 40
Genotype (growth-1) period 81
Genotype (growth-2) period 81
Genotype chi-square as measure of 109—114
Genotype genotype frequency 628—632
Genotype genotype-environment association (G-E association) 680
Genotype genotype-environment interaction (G-E interaction) 678—680 726—727
Genotype genotypic variance 675 676—677 678
Genotype germ cells 82
Genotype germ-line mutations 556
Genotype germ-line transformation 377—380
Genotype Gerstmann-Straussler disease (GSD) 723
Genotype Giemsa 269
Genotype glucose-6-phosphate dehydrogenase (G6PD) 20
Genotype glutamic acid, chemical structure of 413
Genotype glutamine, chemical structure of 411
Genotype glycine, chemical structure of 413
Genotype glyphosate 386
Genotype goodness of fit 109
Genotype schizophrenia and 730
Gramineae 398—400
Grass family, genome evolution in 398—400
Greider, Carol W. 249
Growth hormone, genetic engineering with 382—383
Guanine 9 174 175 177 180
Guano sine triphosphate (GTP) 418
Guide RNA 248
Guthrie, Woody 53
H airy gene 538 539
H2A 229 230
H2B 229 230
H3 229 230
H4 229 230
Haldane’s mapping function 145
Haploid 83 88
Haploid chromosomes 262
Hardy — Weinberg principle 634—639 646
Hardy, Godfrey H. 634 636
Heavy (H) chain 483 485
Helicase proteins 198 199
Helix-turn-helix 492
Hemoglobin 15
Hemoglobin fetal 499
Hemoglobin sickle-cell 17—18 657
Hemoglobin subunits of 414—415
Hemophilia A 101 102
Hepatitis B 388
Herbicides 386
Hereditary determinants, Mendel’s genetic hypothesis of 36—39
Hereditary nonpolyposis colon cancer 401
Heredity, chromosomes and 96—106
Heritability boroad-sense 682 683 685—686 731—732 734
Heritability cultural 734
Heritability narrow-sense 684—686 689—690 691 692 726
Heritability of threshold traits 690—692
Hershey, Alfred 6—9 329
Herskowitz, Ira 484
Heterochromatin 145—146 234 240—241 296—297
Heterochronic mutations 525—526
Heteroduplex region 587 588
Heterogametic 97
Heteroplasmy 602—603
Heterosis 687
Heterozygote superiority 656—658
Heterozygotes, frequency of 637—638
Heterozygous 40—41
Hexaploidy 261 262
Hfr (high frequency of recombination) cells 317—319
HI 229 230
Hicks, James B. 484
High-F disease 499
Highly repetitive sequences 239 240—241
Highly significant 111
Hip, dislocation of 691
Histidine, chemical structure of 413
Histones 229—230
HIV (human immunodeficiency virus) 208 388
Holliday junction-resolving enzyme 590
Holliday model of recombination 138 139 587—590
Holliday structure 588—589
Holliday, Robin 138
Holocentric chromosomes 246
Homeobox 543
Homeotic genes 539 540—543
Homeotic mutation 523
Homogametic 97
Homologous chromosomes 87 88
Homologous chromosomes chromatid exchange in 93
Homothallism 482
Homozygous 40—41
Hoogstein base pairing 250—251
Hormonal regulation 493—494
Hormones 493
Hot spots of mutation 339 565—566
Housekeeping genes 488
Human behavior, genetics of 727—734
Human beings chromosomes of 269—281
Human beings genome of 223—224 395—397
Human beings pedigree analysis in 51—54 146—150
Human beings sex determination in 106—107
Human beings trisomy in 274
Human blood groups see “Blood groups”
Human genetic map 693
Human genome 223—224 395—397
Human genome project 392
Human immunodeficiency virus (HIV) 208 388
Hunchback 536 538 539
Huntington disease 52—53 388
Hybrid vigor 687
Hybridization in situ 234—235 240
Hybridization nucleic acid 200—202
Hybrids 32—33 263—266 383
Hybrids traits present in progeny of 35—36
Hydrocephalus 691
Hypospadias 691
Identical twins 682—683
Identity by descent, allelic 646—647
Imaginal disks 540
Immune system 487
Immunity 344—345
Immunoglobulin 483
Immunoglobulin G (IgG) 483—484 485
Imprinting 280 518
In situ hybridization 234—235 240
In vitro experiments 191
Inborn error of metabolism 12 729 730
Inbreeding 54 634 645—649
Inbreeding coefficient 646
Inbreeding coefficient calculation from pedigrees 647—649
Inbreeding depression 687
Inbreeding effects of 649
Incomplete dominance 67—68
Incomplete penetrance 71—72
Independent assortment, principle of 42—45 46 94 96 124
Independent events 49—51
Individual selection 684
Induced mutations 557 566—577
Inducers 461
Inducible 461
Inducible transcription 463—464
Industrial wastes, genetic engineering and 385
Influenza virus 388
Inheritance cultural 734
Inheritance cytoplasmic see “Extranuclear inheritance”
Inheritance extranuclear see “Extranuclear inheritance”
Inheritance maternal 601 603—604
Inheritance Mendelian 48—51 600 628
Inheritance paternal 601
Inheritance quantitative 670—675
Inheritance sex limited 101
Inheritance X-linked 97—103
Initiation 187 421 431—433
Initiation factors 432
Initiation RNA primer and 195—196
Insecticides 386 563
Insertion sequences 347
Instar 529
Insulin 385
Integrase 343
Integrated 314
Intercalation 571
Interference chromatid 141
Interference chromosome 143—144
Intergenic suppression 583 585
Interphase 83 85
Interrupted-mating technique 319 320
Intervening sequences 425 see “Introns”
Intragenic suppression 583—585
Introns 369 400—401 425—430
Introns evolutionary origin 430
inversion 286—288
Inversion loop 287 288 289
Inverted repeats 243
Ionizing radiation, mutagenicity of 572—575
Irreversible mutation 650—651
IS (insertion sequence) elements 347
Isoleucine, chemical structure of 413
J (joining) region 485—487
Jeffreys, Alec J. 641
Jukes study 727—728
Just-so stories, evolutionary 24
Kallikak study 727
Kappa particles 614
Karyotype 269 270 272 273
Killer phenomenon 614
Kilobase pairs (kb) 222
Kind, Alex J. 380
Kinetochore 86 246
Kinetosomes 619
Klinefelter syndrome 279
Kosambi's mapping function 145
Kryppel 538 539
Kuru 724
Laboratory rats, learning ability in 724—727
Lac mutants 462—463
Lac operon 462—463 466—471
Lac operon operon model and 465—467
Lac operon positive regulation of 468—471
Lactose metabolism 462—471
Lactose permease 462
Lagging strand 195
Lariat structure 426
Lateral inhibition 514
Leader 424
Leader polypeptide 473
Leading strand 195
Leaf variegation in four-o'clock plants 606—609
Learning ability, in laboratory rats 724—727
Lederberg, Esther 561
Lederberg, Joshua 314 322 561
Lejeune, Jerome 271
Leptotene 92
LET-23 receptor 528—529
Leucine, chemical structure of 413
Leukemias 297—298 299
Lewis, Edward B. 61 529
Liability 671 690—692
Liability narrow-sense heritability of 691 692
Library of clones 372
Ligand 528
Light (L) chain 483 485
Limnaea peregra 617—618
Lin-12 developmental-control gene 526—529
Lin-3 gene 527—528
Lin-3 gene product (LIN-3) 528—529
Lineage diagram 519—520
Lineages 519—529
Lineages mutations and 522—526
Linkage 124
Linkage analysis of quantitative-trait loci 692—695
Linkage group 132
Linkage map 127
Linkage recombination and 124—127
Linker DNA 230
Liskay, R. Michael 579
Local population 628
Localized centromere 246—247
Locomotor activity 714—716
Locus 132
Loss-of-function mutation 526 542
Lost allele 629
Luria, Salvador 8
Lyon, Mary 275 276
Lysine 229 413
Lysis 330—331
Lysogen 341
Lysogenic cycle 329
Lysogeny 340—345 477—479
Lytic cycle 329—330 340 477—479
M (mitosis) 83
MacLeod, Colin 4
Mad cow disease 724
Maize see “Corn”
Major groove 179
Malaria 17—18 657
Mammalian circadian rhythm 723
Map distance 144 145—146
Map unit 128—129 130
Map-based cloning see “Positional cloning”
Mapping function 144—145
Marchantia polymorpha 605
Margulis, Lynn 619
Masked mRNA 503
Mass extinction 24
Maternal effect 603—604
Maternal effect in snail shell coiling 617—618
Maternal inheritance 601 603—604
Maternal sex ratio 616
Maternal-effect genes 532
Mating see “Conjugation”
Mating systems 632—639
Mating systems Hardy-Weinberg principle and 634—639
Mating type, yeast 490—491
Mating-type interconversion 481—482 483 484
Maze-learning ability 724—727
McCarty, Maclyn 4
McClintock, Barbara 220 242—243 245
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