生物考试大纲及试卷组成

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I. CELLULAR AND MOLECULAR BIOLOGY (33-34%)

• Fundamentals of cellular biology, genetics and molecular biology are addressed.
• Major topics in cellular structure and function include metabolic pathways and their regulation, membrane dynamics and cell surfaces, organelles, cytoskeleton, and cell cycle.
• Major areas in genetics and molecular biology include chromatin and chromosomal structure, genomic organization and maintenance, and the regulation of gene expression.
• The cellular basis of immunity and the mechanisms of antigen-antibody interactions are included. Distinctions between prokaryotic and eukaryotic cells are considered where appropriate.
• Attention is also given to experimental methodology.

• Cellular Structure and Function (16-17%)
  • Biological compounds
    • Macromolecular structure and bonding
    • Abiotic origin of biological molecules
                            
  • Enzyme activity, receptor binding and regulation
  • Major metabolic pathways and regulation
    • Respiration, fermentation and photosynthesis
    • Synthesis and degradation of macromolecules
    • Hormonal control and intracellular messengers
                            
  • Membrane dynamics and cell surfaces
    • Transport, endocytosis and exocytosis
    • Electrical potentials and transmitter substances
    • Mechanisms of cell recognition, cell junctions and plasmodesmata
    • Cell wall and extracellular matrix
                            
  • Organelles: structure, function, synthesis and targeting
    • Nucleus, mitochondria and plastids
    • Endoplasmic reticulum and ribosomes
    • Golgi apparatus and secretory vesicles
    • Lysosomes, peroxisomes and vacuoles
                            
  • Cytoskeleton, motility and shape
    • Actin-based systems
    • Microtubule-based systems
    • Intermediate filaments
    • Bacterial flagella and movement
                            
  • Cell cycle, growth, division and regulation (including signal transduction)
  • Methods
    • Microscopy (e.g., electron, light, fluorescence)
    • Separation (e.g., centrifugation, gel filtration, PAGE, Fluorescence activated cell sorting [FACS])
    • Immunological (e.g., Western Blotting, immunohistochemistry, immunofluorescence)
                            
          
• Genetics and Molecular Biology (16-17%)
  • Genetic foundations
    • Mendelian inheritance
    • Pedigree analysis
    • Prokaryotic genetics (transformation, transduction and conjugation)
    • Genetic mapping
                            
  • Chromatin and chromosomes
    • Nucleosomes
    • Karyotypes
    • Chromosomal aberrations
    • Polytene chromosomes
                            
  • Genome sequence organization
    • Introns and exons
    • Single-copy and repetitive DNA
    • Transposable elements
                            
  • Genome maintenance
    • DNA replication
    • DNA mutation and repair
                            
  • Gene expression and regulation in prokaryotes and eukaryotes: mechanisms
    • The operon
    • Promoters and enhancers
    • Transcription factors
    • RNA and protein synthesis
    • Processing and modifications of both RNA and protein
                            
  • Gene expression and regulation: effects
    • Control of normal development
    • Cancer and oncogenes
    • Whole genome expression (e.g., microarrays)
    • Regulation of gene expression by RNAi (e.g., siRNA)
    • Epigenetics
                            
  • Immunobiology
    • Cellular basis of immunity
    • Antibody diversity and synthesis
    • Antigen-antibody interactions
                            
  • Bacteriophages, animal viruses and plant viruses
    • Viral genomes, replication, and assembly
    • Virus-host cell interactions
                            
  • Recombinant DNA methodology
    • Restriction endonucleases
    • Blotting and hybridization
    • Restriction fragment length polymorphisms
    • DNA cloning, sequencing and analysis
    • Polymerase chain reaction
                            
          

II. ORGANISMAL BIOLOGY (33-34%)

• The structure, physiology, behavior, and development of plants and animals are addressed.
• Topics covered include nutrient procurement and processing, gas exchange, internal transport, regulation of fluids, control mechanisms and effectors, and reproduction in autotrophic and heterotrophic organisms.
• Examples of developmental phenomena range from fertilization through differentiation and morphogenesis.
• Perceptions and responses to environmental stimuli are examined as they pertain to both plants and animals.
• Major distinguishing characteristics and phylogenetic relationships of selected groups from the various kingdoms are also covered.

• Animal Structure, Function and Organization (10%)
  • Exchange with environment
    • Nutrient, salt and water exchange
    • Gas exchange
    • Energy
                            
  • Internal transport and exchange
    • Circulatory and digestive systems
                            
  • Support and movement
    • Support systems (external, internal and hydrostatic)
    • Movement systems (flagellar, ciliary and muscular)
                            
  • Integration and control mechanisms
    • Nervous and endocrine systems
                            
  • Behavior (communication, orientation, learning and instinct)
  • Metabolic rates (temperature, body size and activity)
          
• Animal Reproduction and Development (6%)
  • Reproductive structures
  • Meiosis, gametogenesis and fertilization
  • Early development (e.g., polarity, cleavage and gastrulation)
  • Developmental processes (e.g., induction, determination, differentiation, morphogenesis and metamorphosis)
  • External control mechanisms (e.g., photoperiod)
          
• Plant Structure, Function and Organization, with Emphasis on Flowering Plants (7%)
  • Organs, tissue systems, and tissues
  • Water transport, including absorption and transpiration
  • Phloem transport and storage
  • Mineral nutrition
  • Plant energetics (e.g., respiration and photosynthesis)
          
• Plant Reproduction, Growth and Development, with Emphasis on Flowering Plants (5%)
  • Reproductive structures
  • Meiosis and sporogenesis
  • Gametogenesis and fertilization
  • Embryogeny and seed development
  • Meristems, growth, morphogenesis and differentiation
  • Control mechanisms (e.g., hormones, photoperiod and tropisms)
          
• Diversity of Life (6%)
  • Archaea
    • Morphology, physiology and identification
                            
  • Bacteria (including cyanobacteria)
    • Morphology, physiology, pathology and identification
                            
  • Protista
    • Protozoa, other heterotrophic Protista (slime molds and Oomycota) and Autotrophic Protista
    • Major distinguishing characteristics
    • Phylogenetic relationships
    • Importance (e.g., eutrophication, disease)
                            
  • Fungi
    • Distinctive features of major phyla (vegetative, asexual and sexual reproduction)
    • Generalized life cycles
    • Importance (e.g., decomposition, biodegradation, antibiotics and pathogenicity)
    • Lichens
                            
  • Animalia with emphasis on major phyla
    • Major distinguishing characteristics
    • Phylogenetic relationships
                            
  • Plantae with emphasis on major phyla
    • Alternation of generations
    • Major distinguishing characteristics
    • Phylogenetic relationships
                            
          

III. ECOLOGY AND EVOLUTION (33-34%)

• This section deals with the interactions of organisms and their environment, emphasizing biological principles at levels above the individual.
• Ecological and evolutionary topics are given equal weight.
• Ecological questions range from physiological adaptations to the functioning of ecosystems.
• Although principles are emphasized, some questions may consider applications to current environmental problems.
• Questions in evolution range from its genetic foundations through evolutionary processes to their consequences.
• Evolution is considered at the molecular, individual, population and higher levels.
• Principles of ecology, genetics, and evolution are interrelated in many questions.
• Some questions may require quantitative skills, including the interpretation of simple mathematical models.

• Ecology (16-17%)
  • Environment/organism interaction
    • Biogeographic patterns
    • Physiological ecology
    • Temporal patterns (e.g., seasonal fluctuations)
                            
  • Behavioral ecology
    • Habitat selection
    • Mating systems
    • Social systems
    • Resource acquisition
                            
  • Population Structure and Function
    • Population dynamics/regulation
    • Demography and life history strategies
                            
  • Communities
    • Direct and indirect interspecific interactions
    • Community structure and diversity
    • Change and succession
                            
  • Ecosystems
    • Productivity and energy flow
    • Chemical cycling
                            
          
• Evolution (16-17%)
  • Genetic variability
    • Origins (mutations, linkage, recombination and chromosomal alterations)
    • Levels (e.g., polymorphism and heritability)
    • Spatial patterns (e.g., clines and ecotypes)
    • Hardy-Weinberg equilibrium
                            
  • Evolutionary processes
    • Gene flow and genetic drift
    • Natural selection and its dynamics
    • Levels of selection (e.g., individual and group)
    • Trade-offs and genetic correlations
    • Natural selection and genome evolution
    • Synonymous vs. nonsynonymous nucleotide ratios
                            
  • Evolutionary consequences
    • Fitness and adaptation
    • Speciation
    • Systematics and phylogeny
    • Convergence, divergence and extinction
    • Coevolution
                            
  • History of life
    • Origin of prokaryotic and eukaryotic cells
    • Fossil record
    • Paleontology and paleoecology
    • Lateral transfer of genetic sequences
                            
          

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