Traits and Reproduction Notes PDF

Summary

This document provides notes on traits, heredity, and reproduction. It covers topics such as genes, DNA structure, and inheritance patterns. The notes include examples of traits like eye color.

Full Transcript

Video Notes
Gene: A small portion of DNA that codes for proteins

Heredity: the study of how genes are passed down from parents to offsprings.

Dna, Chromosome, Genes, and traits

Traits
Traits are coded by DNA

Traits are affected by environmental conditions, UV lights

Traits: a specific characteristic of a specific organism(specific to a person) Eg; Someone is very
tall is a trait, height isn’t a trait

Axsexual reproduction: When an organism doesn’t need a mate to produce offspring.

The main diffrensce between asxesual reproduction and sexual reproduction is that asexsual
reproduction offspring get all of their DNA from one parent.

Nuclei is plural of nucleus and they hold dna

DNA determines;: How tall you are, your eye color and many more

Entire dna code in your body cells, almost all the cells hold almost all your DNA with the
exception of your sex cell (contains half of your DNA and half of your partners)

DNA strands for Deoxyribonucleic Acid

Feature: A characteristic that most ort all of a species have Eg; Height

Building blocks of DNA are nucleotides.

Nucleotides have 3 parts Sugar, phosphate, and base

4 types of bases in dna, ATCG

A = adenine
T = Thymine
C = Cytosine
G = Guanine

These bases pair together in a specific way.
A connects with T
C connects with G

Dna bases are the same for all organisms.

The amount of dna bases and the sequences they connect differ per species

Dna has two strands and bases are held together by hydrogen bonds

Bases form a code and that code instructs how to make proteins

Dna is shaped double helix, looks like a twisted ladder

Genes code for proteins

Genes can code for proteins that are a certain color and when all the proteins are combined eye
color or something else is made

Proteins are involved in transport, structure acting in enzymes and protecting the body

THeir are parts of DNA that don't code

Gene Regulation: Genes can be turned on and turned off by multiple mechanisms

Gene regulation is one of the main ways for your body to maintain homeostasis

When dna is compacted it can become a unit called a chromosome

Chromosome: A large portion of compacted DNA that contain many genes

Humans have 46 Chromosomes

Humans have 23 pairs of chromosomes

Humans have approximately 20,000- 25,000

Humans get 23 genes from each parents

Nearly every body cell in your body has 46 chromosomes

46 chromosomes is your genetic code

The sequence of bases are difference in the code of your DNA
Variation: any difference in traits between individual organisms

Organisms get 1 gene from each parent per trait Eg; a spider gets 1 gene from his dad and one
gene from his mom for spider flexibility.

Its random what gene gets passed on from parent to offspring

Sugar and phosphate make up the backbone of your DNA

Each gene CODES for proteins
The bases are the instructions
The sequence of the bases matter
The cell will read the code to know what protein to make

Each protein molecule is a puzzle piece

Proteins are shaped in a way so that they can ONLY connect one way

GENE->CODE->CELL->PROTEIN->STRUCTURE = TRAIT

Traits Lecture Notes

Gene is a small portion of DNA that codes for a protein

We get two genes for each trait, one from mom and one from dad

Its random which of the two genes you will inherit from your parents

Allele: an identified, specific gene (you know what protein molecule it codes for) When written
can be represented by a single letter

As soon as you know what protein molecule a gene codes for, it turns into an Allele

Any single letter can be used to represent an Allele

Genotype: A set of alleles for a particular trait (are written down as two letters, one for each
allele)

Phenotype: the physical outcome of the genotype (what shows) Eg; if genotype codes for blue
eye proteins, blue eyes would be the Phenotype
Dominant trait: A trait that will always show in the phenotype as long as there's at least 1
dominant allele in the genotype (More common in a population) Eg; brown eyes is a dominant
trait in human beings

Dominant allele: Codes for a dominant trait protein molecule. When written, it will always be
capitalized and comes first in a genotype.

Recessive trait - A trait that requires two of the same recessive alleles in order to show in a
phenotype. Less common

Recessive allele: Codes for a recessive trait’s protein molecule. Will always be written as a
lowercase letter

Heterozygous genotype:The alleles of a genotype are different

Homozygous genotype: When the alleles of a genotype are the same

Inheritance Pattern- The way phenotypes show based on the alleles in the genotype. Each trait
has its own inheritance pattern and they do not change from individual to individual.
Eg; Whatever inheritance pattern is used to determine your dog’s fur color is the same on that
determines every dog’s fur color

Complete Dominance: when a genotype contains both dominant and recessive alleles, the
recessive alleles gets “hidden”, and only the dominant allele will show in the phenotype. This is
the standard inheritance pattern, and it supersedes all others. (if there is one dominant and one
recessive allele, it automatically become this inheritance pattern)

Incomplete Dominance: If there are two different dominant alleles in the genotype, the alleles
will “blend” together

Co-dominance: If there are two different dominant alleles in the genotype BaOTH alleles will
show separately in the phenotype.

Adding in more of the same protein you already have does not change the trait

Adding in a new protein can change the trait, depending on if its dominant or recessive

Mutation Notes

Mutation- Any change in a gene, or how the gene is read

The bases are the code, when talking about the change in a gene, we are talking about the
bases
Inherited Mutation- Any mutation given to you during fertilization (affects all cells)

Acquired Mutation- You get as a result of environmental factors or errors in DNA duplication
(only affects some cells). Some environmental factors alter how genes are read without
changing the DNA sequence itself.

Article Notes

Protein molecules- A large molecule that performs important functions in the human body, made
of amino acids

Blood includes 13 different protein molecules called clotting factors

Clotting factors work together to form scabs, to stop bleeding after you get injured, if you are
missing on clotting factors the clot won't form

Hemophilia- is a disease where a person is missing one of the proteins needed for blood
clotting.

Function- How something works

gene version- a specific form of protein that provides instructions for making a particular protein
molecule AKA Allele

Traits are determined by proteins

People with hemophilia can cursive by getting clotting factors injected into their blood.

Nucleus- Part of the cell where genes are found

Scientists can inject human genes into hamsters and the hamsters’ cells will start making that
protein

As long as the cell has the gene with instructions for making clotting factor protein, the cell will
make the protein.

Working to fix or replace genes is called gene therapy