Asexual reproduction requires only one organism (parent.) Some organisms that reproduce asexually are bacteria, yeast, and spider plants.
Advantages: Only one parent, a large number of offsprings, extremely rapid, no risk of sexually transmitted diseases.
Disadvantages: No genetic diversity, offspring susceptible to the same weaknesses (i.e. diseases, environmental factors, etc.)
Budding: an offspring is formed as a small growth on the parent. - yeast
Binary Fission: a cell divides evenly - bacteria, paramecia
Vegetative Reproduction: only in plants, growing parts (runner) - spider plant, strawberries
Regeneration: to reproduce part or the entire organism from a portion of the parent - starfish, lobsters
Grafting: artificial reproduction in which plant parts are combined - roses, fruit trees
Cloning: formation of a new individual from a single cell of a parent (derived from a genetic code) - agricultural plants
Spore Formation: creates a reproductive cell from a single organism - mold
Slide 2
The Cell Cycle
Purpose: growth, repair, replacement. Cell Cycle: the process of growing and dividing.
Interphase - cells carry out functions necessary for survival, prepare to divide (DNA replication, growth)
Mitosis - cells divide their genetic contents into two parts
Cytokinesis - contents of the cytoplasm are separated and the cell splits into two daughter cells
Mitosis: the process in which a body cell reproduces asexually to create another genetically identical body cell (cell division), the final stage of the cell cycle. The nucleus contents split into two equal parts, and two daughter nuclei are formed. As the nucleus prepares to divide, replicated DNA from interphase joins together to form chromosomes, joined by a centromere.
Purpose: growth, repair, replacement (GRR)
Daughter cells are genetic duplicates of the parent cell
Body cells are diploid with a double copy of chromosomes originating from the mother and the father
All body cells except gametes reproduce this way
Stages: IPMAT
Slide 4
The Stages of Mitosis
Interphase: chromosomes and centrioles replicate, nuclear membrane and nucleolus visible, chromosomes and DNA not
Prophase: chromosomes condense (become more visible) chromatids pair up, nuclear membrane and nucleolus disappear, spindle apparatus forms
Metaphase: chromosomes line up in the middle, two separate centrioles begin to pull them apart
Anaphase: chromatids move away from each other towards opposite poles
Telophase: nuclear membrane and nucleolus reform, the cell is separated into two, (Cytokinesis: cytoplasmic division of all other materials)
Meiosis - the creation of sex cells with half (haploid) the number of chromosomes as the original parent.
Division starts with diploid germ cell, finishes with 4 haploids
4 sperm are produced, or 1 egg/ova (during cytokinesis, the cytoplasm and the organelles are divided unevenly. Whichever ova receives the majority survives, while the other three are polar bodies)
Sperm and egg cells are called gametes, used for sexual reproduction
Stages: IPMATPMAT.
Independent assortment (random distribution of chromosomes during division) and crossing over (tails of chromatids are exchanged) increase genetic diversity.
MITOSIS
Purpose: GRR (Growth/Repair/Replacement.) Make genetically identical cells.
One round of division: PMAT.
Creates two diploid daughter cells
MEIOSIS
Purpose: to create gametes (sperm and ovum)
Two rounds of division: PMATPMAT
Creates four haploid cells
Variability due to independent assortment and crossing over
Slide 7
Sexual Reproduction
Sexual reproduction requires 2 parents and produces offspring that are genetically different from each other, and either parent. Variation in the genetic information of a species is called genetic diversity and can increase chances of survival.
Each parent donates a gamete/sex cell. Females - egg (ovum) Males - sperm. When the egg and sperm fuse, it forms a zygote and it is called fertilization. Sperms and eggs are haploid/have half the number of chromosomes of the parents.
Slide 8
External and Internal Fertilization
EXTERNAL FERTILIZATION
Sperm and egg cells unite outside the bodies of the parents.
Common among aquatic organisms, mosses, and ferns
Advantages: very little energy required, large numbers of offspring
Disadvantages: many gametes do not survive to be fertilized, embryos and zygotes are unprotected
INTERNAL FERTILIZATION
Sperm cells are deposited into the female to meet an egg cell
Common among land organisms
Advantages: more offspring survive
Disadvantages: require a lot of energy, fewer zygotes formed
***In plants, internal fertilization is called pollination - the transfer of male gametes in pollen.
Slide 9
Human Development
Egg + Sperm (gametes). Fertilization.
Zygote (morula - blastula (hollow sphere of cells) - cells differentiate in gastrula (three layers of cells))
Embryo. (2 weeks, 100+ cells)
Fetus (8-10 weeks) with gills and tail.
Baby (9 months)
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