Solutions manual for Introduction to genetic analysis (Registro nro. 303009)

Detalles MARC
000 -ENCABEZADO
Número de control [NR] 11012 a2200301 4500
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control field 20211105120810.0
008 - DE LONGITUD FIJA DE DATOS DE ELEMENTOS - INFORMACIÓN GENERAL
Elementos de longitud fija [NR] 160404s2011 xxuad||fr|||| 000 0 eng d
020 ## - NUMERO INTERNACIONAL NORMALIZADO PARA LIBROS [R]
Número Internacional Normalizado del libro [NR] 9781429232555 (10a.Ed)
040 ## - FUENTE DE CATALOGACION [NR]
Agencia de catalogación original [NR] CO-BoUCM
Idioma de catalogación [NR] spa
Quien Cataloga Saul Niño
Quien Clasifica Saul Niño
041 0# - CODIGO DE IDIOMA [R]
Código de idioma para texto/pista de sonido o título separado [R] Inglés
060 ## - SIGNATURA TOPOGRAFICA DE LA BIBLIOTECA NACIONAL DE MEDICINA (NLM) [R]
Número clasificador [R] QH 430
245 00 - MENCION DE TITULO [NR]
Título [NR] Solutions manual for Introduction to genetic analysis
Mención de responsabilidad, etc. [NR] David Scott ...[y otros]
250 ## - MENCION DE EDICION [NR]
Mención de edición [NR] 10th ed
260 ## - PUBLICACION, DISTRIBUCION, ETC. (PIE DE IMPRENTA) [R]
Nombre del editor, distribuidor, etc. [R] W. H. Freeman and Company
Fecha de publicación, distribución, etc. [R] 2011
Lugar de publicación, distribución, etc. [R] New York (Estados Unidos)
300 ## - DESCRIPCION FISICA [R]
Extensión [R] 475 páginas
Otros detalles físicos [NR] ilustraciones, grafícas
505 ## - NOTA DE CONTENIDO CON FORMATO PREESTABLECIDO [R]
State manifest and birth record (1764-1977). aCh. 1 The Genetics Revolution in the Life Sciences -- 1.1. The Nature of Biological Information -- The molecular structure of DNA -- DNA is organized into genes and chromosomes -- 1.2. How Information Becomes Biological Form -- Transcription -- Translation -- How does life replicate itself? -- Change at the DNA level -- 1.3. Genetics and Evolution -- Natural selection -- Constructing evolutionary lineages -- 1.4. Genetics Has Provided a Powerful New Approach to Biological Research -- Forward genetics -- Reverse genetics -- Manipulating DNA -- Detecting specific sequences of DNA, RNA, and protein -- 1.5. Model Organisms Have Been Crucial in the Genetics Revolution -- 1.6. Genetics Changes Society -- 1.7. Genetics and the Future -- pt. I Transmission Genetics -- ch. 2 Single-Gene Inheritance -- 2.1. Single-Gene Inheritance Patterns -- Mendel's pioneering experiments -- Mendel's law of equal segregation -- 2.2. The Chromosomal Basis of Single-Gene Inheritance Patterns -- Single-gene inheritance in diploids -- Single-gene inheritance in haploids -- 2.3. The Molecular Basis of Mendelian Inheritance Patterns -- Structural differences between alleles at the molecular level -- Molecular aspects of gene transmission -- Alleles at the molecular level -- 2.4. Some Genes Discovered by Observing Segregation Ratios -- A gene active in the development of flower color -- A gene for wing development -- A gene for hyphal branching -- Forward genetics -- Predicting progeny proportions or parental genotypes by applying the principles of single-gene inheritance -- 2.5. Sex-Linked Single-Gene Inheritance Patterns -- Sex chromosomes -- Sex-linked patterns of inheritance -- X-linked inheritance -- 2.6. Human Pedigree Analysis -- Autosomal recessive disorders -- Autosomal dominant disorders -- Autosomal polymorphisms -- X-linked recessive disorders -- X-linked dominant disorders -- Y-linked inheritance -- Calculating risks in pedigree analysis -- ch. 3 Independent Assortment of Genes -- 3.1. Mendel's Law of Independent Assortment -- 3.2. Working with Independent Assortment -- Predicting progeny ratios -- Using the chi-square test on monohybrid and dihybrid ratios -- Synthesizing pure lines -- Hybrid vigor -- 3.3. The Chromosomal Basis of Independent Assortment -- Independent assortment in diploid organisms -- Independent assortment in haploid organisms -- Independent assortment of combinations of autosomal and X-linked genes -- Recombination -- 3.4. Polygenic Inheritance -- 3.5.Organelle Genes: Inheritance Independent of the Nucleus -- Patterns of inheritance in organelles -- Cytoplasmic segregation -- Cytoplasmic mutations in humans -- MtDNA in evolutionary studies -- ch. 4 Mapping Eukaryote Chromosomes by Recombination -- 4.1. Diagnostics of Linkage -- Using recombinant frequency to estimate linkage -- How crossovers produce recombinants for linked genes -- Linkage symbolism and terminology -- Evidence that crossing over is a breakage-and-rejoining process -- Evidence that crossing over takes place at the four-chromatid stage -- Multiple crossovers can include more than two chromatids -- 4.2. Mapping by Recombinant Frequency -- Map units -- Three-point testcross -- Deducing gene order by inspection -- Interference -- Using ratios as diagnostics -- 4.3. Mapping with Molecular Markers -- Single nucleotide polymorphisms -- Simple sequence length polymorphisms -- Detecting simple sequence length polymorphism -- Recombination analysis using molecular markers -- 4.4. Centromere Mapping with Linear Tetrads -- 4.5. Using the Chi-Square Test for Testing Linkage Analysis -- 4.6. Accounting for Unseen Multiple Crossovers -- A mapping function -- The Perkins formula -- 4.7. Using Recombination-Based Maps in Conjunction with Physical Maps -- 4.8. The Molecular Mechanism of Crossing Over -- ch. 5 The Genetics of Bacteria and Their Viruses -- 5.1. Working with Microorganisms -- 5.2. Bacterial Conjugation -- Discovery of conjugation -- Discovery of the fertility factor (F) -- Hfr strains -- Mapping of bacterial chromosomes -- F plasmids that carry genomic fragments -- R plasmids -- 5.3. Bacterial Transformation -- The nature of transformation -- Chromosome mapping using transformation -- 5.4. Bacteriophage Genetics -- Infection of bacteria by phages -- Mapping phage chromosomes by using phage crosses -- 5.5. Transduction -- Discovery of transduction -- Generalized transduction -- Specialized transduction -- Mechanism of specialized transduction -- 5.6. Physical Maps and Linkage Maps Compared -- ch. 6 Gene Interaction -- 6.1. Interactions Between the Alleles of a Single Gene: Variations on Dominance -- Complete dominance and recessiveness -- Incomplete dominance -- Codominance -- Recessive lethal alleles -- 6.2. Interaction of Genes in Pathways -- Biosynthetic pathways in Neurospora -- Gene interaction in other types of pathways -- 6.3. Inferring Gene Interactions -- Sorting mutants using the complementation test -- Analyzing double mutants of random mutations -- 6.4. Penetrance and Expressivity -- pt. II From DNA to Phenotype -- ch. 7 DNA: Structure and Replication -- 7.1. DNA: The Genetic Material -- Discovery of transformation -- Hershey -- Chase experiment -- 7.2. The DNA Structure -- DNA structure before Watson and Crick -- The double helix -- 7.3. Semiconservative Replication -- Meselson-Stahl experiment -- The replication fork -- DNA polymerases -- 7.4. Overview of DNA Replication -- 7.5. The Replisome: A Remarkable Replication Machine -- Unwinding the double helix -- Assembling the replisome: replication initiation -- 7.6. Replication in Eukaryotic Organisms -- The eukaryotic replisome -- Eukaryotic origins of replication -- DNA replication and the yeast cell cycle -- Replication origins in higher eukaryotes -- 7.7. Telomeres and Telomerase: Replication Termination -- ch. 8 RNA: Transcription and Processing -- 8.1. RNA -- Early experiments suggest an RNA intermediate -- Properties of RNA -- Classes of RNA -- 8.2. Transcription -- Overview: DNA as transcription template -- Stages of transcription -- 8.3. Transcription in Eukaryotes -- Transcription initiation in eukaryotes -- Elongation, termination, and pre-mRNA processing in eukaryotes -- 8.4. Intron Removal and Exon Splicing -- Small nuclear RNAs (snRNAs): The mechanism of exon splicing -- Self-splicing introns and the RNA world -- 8.5. Small Functional RNAs that Regulate and Protect the Eukaryotic Genome -- miRNAs are important regulators of gene expression -- siRNAs ensure genome stability -- Similar mechanisms generate siRNA and miRNA -- ch. 9 Proteins and Their Synthesis -- 9.1. Protein Structure -- 9.2. The Genetic Code -- Overlapping versus nonoverlapping codes -- Number of letters in the codon -- Use of suppressors to demonstrate a triplet code -- Degeneracy of the genetic code -- Cracking the code -- Stop codons -- 9.3.tRNA: The Adapter -- Codon translation by tRNA -- Degeneracy revisited -- 9.4. Ribosomes -- Ribosome features -- Translation initiation, elongation, and termination -- Nonsense suppressor mutations -- 9.5. The Proteome -- Alternative splicing generates protein isoforms -- Posttranslational events -- ch. 10 Gene Isolation and Manipulation -- 10.1. Overview: Isolating and Amplifying Specific DNA Fragments -- 10.2. Generating Recombinant DNA Molecules -- Genomic DNA can be cut up before cloning -- The polymerase chain reaction amplifies selected regions of DNA in vitro -- DNA copies of mRNA can be synthesized -- Attaching donor and vector DNA -- Amplification of donor DNA inside a bacterial cell -- Making genomic and cDNA libraries -- 10.3. Finding a Specific Clone of Interest -- Finding specific clones by using probes -- Finding specific clones by functional complementation -- Southern- and Northern-blot analysis of DNA -- 10.4. Determining the Base Sequence of a DNA Segment -- 10.5. Aligning Genetic and Physical Maps to Isolate Specific Genes -- Using positional cloning to identify a human-disease gene -- Using fine-mapping to identify genes -- 10.6. Genetic Engineering -- Genetic engineering in Saccharomyces cerevisiae -- Genetic engineering in plants -- Genetic engineering in animals -- ch. 11 Regulation of Gene Expression in Bacteria and Their Viruses -- 11.1. Gene Regulation -- The basics of prokaryotic transcriptional regulation: genetic switches -- A first look at the lac regulatory circuit -- 11.2. Discovery of the lac System: Negative Control -- Genes controlled together -- Genetic evidence for the operator and repressor -- Genetic evidence for allostery -- Genetic analysis of the lac promoter -- Molecular characterization of the Lac repressor and the lac operator -- Polar mutations -- 11.3. Catabolite Repression of the lac Operon: Positive Control -- The basics of lac catabolite repression: choosing the best sugar to metabolize -- The structure of DNA target sites -- A summary of the lac operon -- 11.4. Dual Positive and Negative Control: The Arabinose Operon -- 11.5. Metabolic Pathways and Additional Levels of Regulation: Attenuation -- 11.6. Bacteriophage Life Cycles: More Regulators, Complex Operons -- Molecular anatomy of the genetic switch -- Sequence-specific binding of regulatory proteins to DNA -- 11.7. Alternative Sigma Factors Regulate Large Sets of Genes -- ch. 12 Regulation of Gene Expression in Eukaryotes -- 12.1. Transcriptional Regulation in Eukaryotes: An Overview -- 12.2. Lessons from Yeast: The GAL System -- Gal4 regulates multiple genes through upstream activation sequences -- The Gal4 protein has separable DNA-binding and activation domains -- Gal4 activity is physiologically regulated -- Gal4 functions in most eukaryotes -- Activators recruit the transcriptional machinery -- The control of yeast mating type: combinatorial interactions -- 12.3. Dynamic Chromatin -- Chromatin-remodeling proteins and gene activation -- Histones and chromatin remodeling -- The inheritance of histone modifications and chromatin structure.
546 ## - NOTA DE IDIOMA [R]
Nota de idioma [NR] Texto en ingles
650 #7 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R]
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9 (RLIN) 100574
650 #7 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R]
9 (RLIN) 16319
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650 #7 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R]
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Acceso temático local Genética
9 (RLIN) 207
700 1# - ASIENTO SECUNDARIO - NOMBRE PERSONAL [R]
Nombre personal [NR] Scott, David
9 (RLIN) 76436
700 1# - ASIENTO SECUNDARIO - NOMBRE PERSONAL [R]
Nombre personal [NR] Sia, Elaine A.
9 (RLIN) 76437
700 1# - ASIENTO SECUNDARIO - NOMBRE PERSONAL [R]
Nombre personal [NR] Brockett, Mirjana
9 (RLIN) 76438
700 1# - ASIENTO SECUNDARIO - NOMBRE PERSONAL [R]
Nombre personal [NR] Fixsen, William D
9 (RLIN) 76439
700 1# - ASIENTO SECUNDARIO - NOMBRE PERSONAL [R]
Nombre personal [NR] Lavitt, Diane K
9 (RLIN) 76440
942 ## - ELEMENTOS DE ENTRADA AGREGADOS (KOHA)
Tipo de ítem principal el descrito en 300a Libro
Sistema de clasificación NLM
Tema principal Ciencias aplicadas
Edición 10
Clasificación QH 430
Parte restante de la signatura top. S691ma
Título oculto en OPAC No
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16/11/2024 13 QH 430 S691ma 200029104 27/03/2026 10a.Ed. Ej.2 171378.00 04/04/2016 Libro   NLM     Libro   Quinta de Mutis Quinta de Mutis 1er piso 04/04/2016 19 Compra 171378.00 10