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Hatrl D.L., Jones E.W. — Genetics: Principles and Analysis
Hatrl D.L., Jones E.W. — Genetics: Principles and Analysis



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Íàçâàíèå: Genetics: Principles and Analysis

Àâòîðû: Hatrl 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: en

Ðóáðèêà: Áèîëîãèÿ/

Ñòàòóñ ïðåäìåòíîãî óêàçàòåëÿ: Ãîòîâ óêàçàòåëü ñ íîìåðàìè ñòðàíèö

ed2k: ed2k stats

Èçäàíèå: fourth edition

Ãîä èçäàíèÿ: 1998

Êîëè÷åñòâî ñòðàíèö: 1298

Äîáàâëåíà â êàòàëîã: 30.11.2005

Îïåðàöèè: Ïîëîæèòü íà ïîëêó | Ñêîïèðîâàòü ññûëêó äëÿ ôîðóìà | Ñêîïèðîâàòü ID
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Ïðåäìåòíûé óêàçàòåëü
Drosophila melanogaster courtship song in      716—720
Drosophila melanogaster development in      513 517 529—543
Drosophila melanogaster DNA molecules of      228
Drosophila melanogaster DNA replication in      189 190
Drosophila melanogaster eye color in      19—20
Drosophila melanogaster gene amplification in      481
Drosophila melanogaster genetic maps of      131—132
Drosophila melanogaster genome of      222
Drosophila melanogaster highly repetitive sequences in      240—241
Drosophila melanogaster maternal sex ratio in      616
Drosophila melanogaster metacentric autosomes of      261
Drosophila melanogaster middle-repetitive sequences in      241—242
Drosophila melanogaster mitotic recombination in      158—160
Drosophila melanogaster molecular genetics of Drosophila clock      720—723
Drosophila melanogaster Notch deletions in      281—282
Drosophila melanogaster Notch gene product in      527
Drosophila melanogaster polytene chromosomes of      234 281 283
Drosophila melanogaster position-effect variegation (PEV) in      296—297
Drosophila melanogaster positional cloning in      374
Drosophila melanogaster recombination in      160
Drosophila melanogaster regulation of      480
Drosophila melanogaster sex determination of      104—106
Drosophila melanogaster transposable elements in      243
Drosophila melanogaster white gene      101 124—127
Drosophila melanogaster X-linked genes of      97—101 124—127
Drosophila melanogaster yellow gene      126—127
Drosophila polytene chromosomes      296
Drosophila simulans, courtship song in      720
Drosophila transcriptional activation during development of      495—497
Drosophila transformation in      377 378
Drosophila virilis acrocentric autosomes of      261
Drosophila virilis highly repetitive sequences in      240
Drug resistance      609—610
Drug resistance antibiotic-resistant mutants      311 348—349 608 609—610
dTTP (deoxythymidine triphosphate)      191 568
Duplex DNA      10 179
Duplication      282—283
E (exit) site      431
Easier gene      537
Eco Ri      147 148
Ectopic expression      67
editing function      193 194
Electrophoresis      390 401—405 629—630
Electrophoresis gel      205—206 211 212 390 401—405
Electrophoresis protein      629—630 631
Electroporation      365
Elongation      421 431 433—436
Elongation factors      433
Embryoid      266
Embryonic development, in animals      514—519
Embryonic induction      517
Embryonic stem cells      378 379 381
Endonucleases      192
Endonucleases restriction      147 148 202—205
Endoreduplication      264 265 266
Endosymbiont theory      613 619
Engrailed gene      539
Enhancer trap      499—500
Enhancers      494—499
Environment, genes and      20—22
Environmental factors      670
Environmental variance      675 676 677—680
Environmental variance genotype-environment association      680
Environmental variance genotype-environment interaction      678—680 726—727
Enzyme polymorphisms      629—630
Enzymes      12
Enzymes Holliday junction-resolving      590
Enzymes mismatch repair      375—376
Enzymes nuclease activity of      192—193 194
Enzymes protease      4
Enzymes restriction      147 148 202—205 360—362
Enzymes RNase      4 5
Enzymes starch-branching enzyme I (SBEI)      65 246
Enzymes topoisomerase      187 198 199 225 226
Enzymes “one gene-one enzyme” concept      420
Epidermal growth factor (EGF)      527
Episome      314
Epistasis      19—20 61—64
Equational division (second meiotic division)      94—95
Equilibrium      652
Equilibrium centrifugation in a density gradient      183
Error-prone DNA repair      582
Escherichia coli bacteriophages of      6—8 191
Escherichia coli chemotactic response of      704—706
Escherichia coli chromosome of      225—227
Escherichia coli cloning of genes in      350
Escherichia coli colonies      311
Escherichia coli conjugation in      306 314 315
Escherichia coli DNA isolated from      183
Escherichia coli DNA replication in      186—187 192—193
Escherichia coli DNAligase      196
Escherichia coli genomes of      222 394 395
Escherichia coli infection by bacteriophage      1 476—477
Escherichia coli lactose operon      462
Escherichia coli nucleotide sequences in      614
Escherichia coli oligonucleotide site-directed mutagenesis for      376
Escherichia coli physical map of      392
Escherichia coli selection in      653
Escherichia coli sexual process in      322
Escherichia coli time-of-entry mapping of      322—324
Escherichia coli transduction of      325—328
Escherichia coli tRNA suppressors      449
Escherichia coli tryptophan operon      471—476
Escherichia coli wobble rules for      447
Estrogen      493—494
Ethics of cloning      380
Ethyl methane sulfonate, mutagenicity of      570
Euchromatin      145—146 241 296
Eukarya      22—23
Eukaryotes      23
Eukaryotes chromosomes of      222 228—234 246—252
Eukaryotes crossing-over in      308
Eukaryotes cytoplasmic transmission in      614—616
Eukaryotes DNA replication in      189
Eukaryotes enhancers in      494 495
Eukaryotes gene regulation in      460 479—480
Eukaryotes genetic apparatus of      222—224
Eukaryotes genetic organization of      480 494 495
Eukaryotes genomes of      235—242
Eukaryotes mRNA of      424
Eukaryotes recombinant DNA technology and      386
Eukaryotes replication in      189
Eukaryotes RNA processing in      424
Eukaryotes size of complex genomes      388—389
Eukaryotes transcriptional activation in      495—497
Eukaryotes transcriptional regulation in      488—501
Eukaryotes translation units in      450—451
Eukaryotes transposable elements in      347
Euploid      269
Even-skipped gene      538
Event      48
Evolution      22—24 649—650
Evolutionary complexity, genome size and      222—224
Excision repair      581—582
Excisionase      345
Execution mutation      524
Exon-shuffle      430
Exons      425
Exonucleases      192 194
Expressivity      71
Extinction, mass      24
Extranuclear inheritance      599—625
Extranuclear inheritance cytoplasmic transmission of symbionts      614—616
Extranuclear inheritance evolutionary origin of organelles      613—614
Extranuclear inheritance maternal effect in snail-shell coiling      617—618
Extranuclear inheritance mitochondrial “Eve”      618—621
Extranuclear inheritance organelle heredity      604—613
Extranuclear inheritance recognition of      600—604
Extroversion      731
F factor      314—317
F pilus      306
F' (F prime) plasmid      322—323
Familial fatal insomnia (FFI)      723
Fate map      530 531 535
Fates, cell      514
Favism      20
Fertility      655
Fertility factor (F factor)      314—317
Fertility restorers      612
Fetal alcohol syndrome      513 730
Fetal hemoglobin      499
First meiotic division      89—94
First-division segregation      155 157
Fischer, Emil      12
Fisher, Ronald Aylmer      U2 114 713
Fitness 5'-P (5' phosphate) of nucleic acids      175
Fitness components of      654—655
Fitness relative      653
Fixed allele      629
Flagella      705—706
Flagellar components      707 708
Floral organs, combinatorial determination of      545—548
Flower development in Arabidopsis      545
Folded chromosome      225—227
Folding domains      430
Forward mutations      583 652
Four-o'clock plants, leaf variegation in      606—609
Fragile-site mental retardation-1(FMRI)      280
Fragile-X chromosomes      279
Fragile-X syndrome      279—280 518 730
Frameshift mutations      440 559
Franklin, Rosalind      180
Fraternal twins      682—683
Free radicals      573
Frequency of cotransduction      326 328
Frequency of recombination      125 128 129 130 140 144 145
Frq (frequency) gene      723
Fugufubripes      480
G6PD deficiency      2Q
Gain-of-function mutation      526 542
Galactose      706
Galactose metabolism in yeast      488—490
Galton, Francis      674
Gamete      37 82 83 89 629
Gametogenesis      518
Gametophytes      89
Gap genes      533 536 538
Garrod, Archibald      12
Gastrula      514
Gastrulation-defective gene      537
Gates, R.R.      727
Gauss, Carl Friedrich      674
Gautier, Marthe      271
Gel electrophoresis      205—206 211 212 390 401—405
Gel electrophoresis pulsed-field (PFGE)      228 390
GenBank      401
Gene amplification      480—481
Gene cloning      360 (see also “Genetic engineering”)
Gene conversion      586—587
Gene dosage      480—481
Gene expression      411—457
Gene expression complex translation units      450—451
Gene expression defined      412
Gene expression genetic code      438—449
Gene expression overall process of      451—452
Gene expression overlapping genes      449—450
Gene expression position effects on      296—297
Gene expression relations between genes and polypeptides      415—418
Gene expression RNA processing      412 424—430 460
Gene expression transcription      12—14 412 418—424
Gene expression translation      412 430—438
Gene pool      628
Gene product      412
Gene regulation      459—509
Gene regulation control points for      460
Gene regulation coordinate      436 461
Gene regulation defined      460
Gene regulation eukaryotic      460 479—480
Gene regulation general principle of      504
Gene regulation in bacteriophage      1 476—479
Gene regulation in prokaryotes      480
Gene regulation negative      461
Gene regulation of tryptophan operon      471—476
Gene regulation positive      461 468—471
Gene regulation transcriptional      460—462 465—467 488—501
Gene splicing      see “Splicing”
Gene targeting      379—380 381
Gene therapy      382 387—388
General nonchemotaxis      706—707
General transcription factors      494—495
Generalized transducing phage      325
Genes      2 40 81—121
Genes anterior      534
Genes arrangement in bacteriophages      340 341
Genes candidate      732—733
Genes chimeric      285
Genes coordinate      532—537
Genes defining      161
Genes denominator      105
Genes environment and      20—22
Genes gap      533 536 538
Genes homeotic      539 540—543
Genes housekeeping      488
Genes incomplete penetrance      71—72
Genes maternal-effect      532
Genes meanings of      339—340
Genes number affecting quantitative traits      681—682
Genes numerator      105
Genes overlapping      449—450
Genes pair-rule      533 538
Genes parasegment      532
Genes polymorphic      630
Genes polypeptides and      415—418
Genes posterior      536
Genes proteins and      12—15
Genes recombination within      160
Genes reporter      500
Genes segment-polarity      533—534 538—540
Genes segmentation      532—534
Genes terminal      536
Genes traits and      16—22
Genes variable expressivity      71
Genes X-linked      97—103 124—127 639
Genes zygotic      532
Genetic analysis      54—61
Genetic analysis complementation test      54—60
Genetic analysis multiple alleles      60—61
genetic code      438—449
Genetic disorders      388
Genetic distance, physical distance and      145—146
Genetic drift, random      650 658—661
genetic engineering      205 349 359—388
Genetic engineering applications of      382—388
Genetic engineering cloning strategies      365—374
Genetic engineering in plants      380—382
Genetic engineering protein production and      386—387
Genetic engineering research, uses in      386
Genetic engineering restriction enzymes and vectors      360—365
Genetic engineering reverse genetics      377—382 386
Genetic engineering site-directed mutagenesis      374—376
Genetic engineering viruses and      387—388
Genetic factors      670
Genetic mapping      124 127—141
Genetic mapping crossing-over and      128 129—130 132—141
Genetic mapping from three-point testcross      141—146
Genetic mapping in human pedigrees      146—150
Genetic mapping mapping functions      144—145
Genetic mapping of quantitative-trait loci      694 695
Genetic mapping tetrad analysis and      150—158
Genetic mapping time-of-entry      319—324
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