Categorias: Todos - mutation - diversity - genetics - evolution

por JL - 10CS 955028 Rick Hansen SS 1 ano atrás

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Diversity of Life By Joshua Lui-Yee

Genetic variation in organisms can arise from traits that follow Mendel's Laws or from traits with incomplete patterns, both of which contribute to diversity. Alleles play a significant role in genetics, influencing mutations and shaping gene pools in evolutionary processes.

Diversity of Life

By  Joshua Lui-Yee

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Real-Life Examples (Hardy Weinberg Equilibrium):

4. Natural Selection: Giraffes have longer necks that allow them to find food and resources that other animals may struggle to find for survival. This is a physical advantage over other animals.

3. Non-Random Mating: Most human cultures do not mate randomly and instead find mates based on traits or characteristics.

2. Genetic Drift: Natural disasters can occur, causing a population of organism to be wiped out. Some alleles in the gene pool will survive over others.

1. Gene flow: Bees can carry pollen from one plant to another, increasing gene flow, because pollen can produce male gametes.

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CONNECTION: Genes are a part of gene pools, but are changed by gene flow and genetic drift in the Hardy-Weinberg Equilibrium

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CONNECTION: Sexual reproduction is important to genetic variation between alleles mutations, but also to maintain the Hardy-Weinberg equilibrium

CONNECTIONS: Genotypes are part of Punnett squares in Genetics but are also part of natural selection in Evolution

CONNECTION: Independent assortment is a process in meiosis, but is also a part of Mendel's Laws.

CONNECTION: Both meiosis and gametogenesis are involved in the production of gametes

CONNECTION: Mendel's Laws of Genetics explain genetic differences, but uses Meiosis to describe how genetic variation occurs in alleles

CONNECTION: Alleles are mutated genes, but are also exchanged during meiosis, and help to increase genetic variation

CONNECTION: Organisms can have traits that follow Mendel's Laws (dominant and recessive traits), or traits that are incomplete patterns. Both increase genetic variation via allele combinations.

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CONNECTION: Organisms can have traits that follow Mendel's Laws, or traits that are incomplete patterns. Both increase genetic variation.

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CONNECTION: Alleles are involved in Genetics, to contribute to mutations, but are also part of Evolution to describe gene pools.

Diversity of Life By Joshua Lui-Yee

Genetics:

Cell Cycle
Meiosis

create gamete cells

daughter cells recieve allele from each parent

2 phases of meiosis

Meiosis 2:

4 haploid cells

genetically different offspring

increase diversity

Meiosis 1 (reduction division phase)

2 haploid cells

Increase genetic variation

independent assortment

prophase 1

crossing-over

metaphase 1

Note: Meiosis and mitosis both have PMAT phases, with slight differences

Subtopic

Interphase:

Mitosis

cell division process

genetically identical diploid somatic cells

increase genetic variation

Non-Mendelian Patterns of Inheritance:
Complete Dominanace:

both alleles are dominant

both alleles are expressed separately

Incomplete Dominance

neither allele is dominant

both alleles are expressed together

creation of a new trait

increases phenotypical diversity

Mendel Laws of Genetics:
Mendal's Law of Independant Assortment

alleles assort of each other during metaphase 1

monohybrid Punnett squares

Mendal's Law of Segregation

alleles segregate during anaphase

each gamete gets 1 allele

increased variation in traits

increased diversity in offspring

probability of alleles

dihybrid Punnett squares

genotypes and phenotypes of each allele

Mendel's Law of Dominance

a heterozygous organism

1 expressed allele

alleles must be recessive or dominanat

dominant alleles will be revealed over recessive

Reproduction
Sexual Reproduction:

Gamete formation

Sperm and egg unite

Embryo forms

offspring recieves alleles from each parent

increases genetic variation

Gametogenisis

Spermatogenisis

sperm cells

Oogenisis

egg cells (ovem

Alleles
Mutated genes (ie. green eyes vs blue eyes)

after meiosis

cells with the same genes and locus, but varying alleles

genetically different

sexual reproduction

alleles from each parent

increases diversity of traits and characteristics

Evolution

Natural Selection:
change in allele frequencies

specific genotype advantages

a survival advantage

larger gene pool

selection

different rates of surival

struggle for existence

overproduction of offspring

variation of traits among organisms

Hardy-Weinberg Equilibrium:
a population can follow conditions

not in accordance with the theory

changing allele population

genetic diversity

gene pool

diverse offspring

non-random mating

genetic drift

gene flow

mutation

natural selection

in accordance with the theory

same allele population

no genetic diversity

no diverse offspring

same gene pool

random sexual mating

large population size

isolation from other species

no mutation

no natural selection

Populations Genetics and Evolution:
Microevolution:

change in alleles over time

genetic diversity increases

different characteristics and alleles

A gene pool

alleles

genes

population

Populations

units of evolution

genetically evolve

group of organisms

interbreed in the same region