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Typed notes on cell division, genetics, dna replication, and gene expression

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The following document is 7 pages of typed notes with organized information on the topics listed in title and more for Biology semester 1. The notes are very in depth and reworded to be simple explained while maintaining the vocabulary. There are many tables in the notes to make the information clearer.

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Institución
Grado

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Ch 11: Cell Cycle and Cell Division
Part 1: Somatic eukaryotes and prokaryotes- Asexual is Mitosis Only
●​ Cell Division Process: double in size divide by 2. Initiation, DNA Replication,
DNA Segregation, Cytokinesis.
●​ Prokaryotic cell division: ori and ter.
●​
Prokaryotic Cell Division Eukaryotic Cell Division

Rapid Complex, slower

Environmental Signals Internal Signals, sometimes external

Asexual, 2 new cells, clones of OG Entire organism reproduction single celled.
Multicellular results in more cells within
organisms, not always clones (growth and
development, repair of tissues).
●​ Cell Cycle somatic euk: G1, S, G2, Mitosis. If there is no division, cells go into G0. Spindle
Apparatus.
-​ G=growth. S=DNA synthesis
-​
Prophase (after interphase) Chromosomes Condense, spindle
assembly

Prometaphase Nuclear breakdown, chromosomes attach
to spindle

Metaphase Chromosomes form 1 line @ equator

Anaphase Chromatids migrate to poles 2 lines

Telophase Chromosomes decondense and nuclear
reforms (2 cells)

Cytokinesis not Mitosis, after. 2 cells finalize. Plant cell wall reforms or
just membrane. Plant=cell plate.
Animal=contractile ring.
●​ Cdks, R point, Checkpoints
-​ Cdk: Cyclin-dependent kinases are always present, active sites not always exposed.
Cyclin proteins are made only at certain points in cycle, bind to cdk and active site
exposed. Substrate+ATP bind. PROTEIN+ATP->PROTEIN&P+ADP
-​ The presence or absence of cyclin dictates Cdk activity which leads to cell cycle
regulation.
-​ Restriction Point: G1-S commitment to cell division. Cdk is active, so cyclin is present.
-​ Checkpoints: between G2-M regulates entry to Mitosis. Mostly DNA damage, incomplete
replication, or chromosomes being unattached to spindle.
●​ Dna molecules interact with histones to form nucleosomes

, ●​ Cell Death: Necrosis=damage or starved cell dies unexpectedly. Apoptosis=programmed cell
death, signal activated, caspases. In both, parts are recycled.
Part 2: Sexual Reproduction- Mitosis and Meiosis
●​ Gametes instead of somatic cells. Meiosis generates genetic diversity, as offspring are not
identical to parents.
●​
Somatic Cells Gametes- fusion of 2 forms diploid zygote

Cells not specialized for reproduction Specialized for reproduction

Has homologous pairs of chromosomes (2) Only 1 set chromosomes

1 homolog in the pair per parent 1 homolog each pair of chromosomes

Diploid or 2n Haploid n
●​ Sexual Reproduction 2n→n in half. The result is 4 haploid daughter cells prior to fertilization.
Meiosis has 1 and 2.
-​ Meiosis: nucleus divides 2x but DNA is replicated 1x.
-​
Meiosis 1 Meiosis 2

DNA replication occurs before this No DNA replication

Homologous chromosomes pair along Chance assortment→genetic diversity
entire lengths

Pairs separate but individual Sister chromatids separated (individual
chromosomes stay together chromosomes)
-​ Meiosis 1 is the separation of homologous chromosomes.
-​ Meiosis 2 is the separation of sister chromatids
●​ Crossing over: exchange of genetic material between non-sister chromatids. Inc genetic
variability. Chiasma. The 4 chromatids form a tetrad.
●​ Independent Assortment at anaphase 1: random chance which member of homologous pair goes
to which daughter cell. Also random fertilization.
●​ Errors: nondisjunction failure to separate→aneuploidy where chromosomes are either lacking or
excess.
Ch 12: Inheritance, genes, chromosomes.
●​ Mendel’s Experiment: P (1 homo dom and 1 homo rec) → F1 (100% hetero) → F2 (3
phenotypically dominant: 1 pheno recessive)
●​ Law of Segregation: each organism has 2 copies of a gene but only 1 version/copy goes into
gamete. Meiosis.
●​ Law of Independent assortment: genes for different traits are inherited independently of each
other. Meiosis and genetic crossing
●​ Fruit flies: alleles do not assort independently
●​ Character vs. Trait: feature vs description of feature ex. Color (C) is purple (T).

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Información del documento

Subido en
5 de diciembre de 2025
Número de páginas
7
Escrito en
2025/2026
Tipo
NOTAS DE LECTURA
Profesor(es)
Murphy
Contiene
Chapters 11-14

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