General Biology 2nd Quarter Reviewer PDF

Summary

These notes review general biology concepts, focusing on cell cycle and interphase. It details the process of cell division and the steps involved. Key topics include organelle biogenesis and checkpoints.

Full Transcript

GENERAL BIOLOGY FIRST SEMESTER: Second Quarter Notes/Reviewer - Soyon Cinco ○ The cell grows and the nuclear THE CELL CYCLE AND INTERPHASE DNA is duplicated...

GENERAL BIOLOGY FIRST SEMESTER: Second Quarter Notes/Reviewer - Soyon Cinco ○ The cell grows and the nuclear THE CELL CYCLE AND INTERPHASE DNA is duplicated ○ The three stages are Gap 1, Synthesis, and Gap 2 ★ Cell Division ○ In order for a cell to move from ○ The process by which a parent cell interphase in to the mitotic phase, divides into two daughter cells many internal and external ○ All cells reproduce by splitting into conditions must be met two, where each parental cell gives ○ Interphase is longer because if the rise to daughter cell cells are not fully prepared it may ★ Why do we need cell division? cause mutations ○ All multicellular organisms use cell division for growth and the maintenance and repair of cells and tissues ○ Single-celled organisms use cell division as their method of reproduction ○ All humans have different amount of cells ★ Gap 1/Growth 1 ○ Damaged cells get replaced ○ Cell grows and more organelles through cell division are produced increasing the ★ Cell Cycle volume of the cytoplasm ○ Ordered series of events involving ○ Cell is active at the biochemical cell growth and cell division that level (ATP, Lipid, Carbs, Glucose) – produces two new daughter cell this is the event that causes ○ Cells on the path to two identical organelle biogenesis (clone) cells ○ Accumulates building blocks of ○ Has two major phases chromosomal DNA and associated Interphase proteins Mitotic Phase ○ Accumulates sufficient energy reserves to complete the task of INTERPHASE replicating chromosomes in the nucleus ★ Interphase ○ Histone protein is packed ○ The cell undergoes normal growth ○ A large amount of ATP processes while also preparing for accumulates energy cell division ★ Mitochondria ○ Preparation for cell division ○ Generator for energy PAGE 1 ★ Organelle Biogenesis cell it will equal to 23 pairs to each ○ The process by which new daughter cells organelles are made ★ Pituitary Gland ○ Duplication of the cell organelle ○ Control of cell cycle ★ Gap 1 Checkpoint ○ Master gland ○ External influences such as growth ○ Responsible for correction of cell factors, play a large role in sperm checkpoint carrying the cell to pass the G1 ★ Centrosomes Checkpoint ○ Organize the microtubules ○ Check for genomic DNA damage ○ Maintain equal distribution of ○ Cell size and protein reserves are chromosomes in daughter cells assessed ○ 1 centrosome = 2 centrioles ○ Cell can halt the cycle and attempt ○ 1 centriole = 27 microtubules to remedy the problematic ○ Dimer (alpha & beta) tubulin = 54 condition, or the cell can advance (27 each) in to G0 and await further signals ○ 2 centrioles = 108 tubulin when conditions improve ○ There are 108 tubulin because in 1 centrosome there are 2 centrioles ○ G0 - setting if the cell is damaged and each centriole consist of 54 ★ Synthesis microtubules from the alpha and ○ Chromatin begins to condense beta tubulin ○ DNA replication results in the ★ Centrioles formation of identical DNA-sister ○ Help organize cell division chromatids ○Not present in the centrosomes of ○ Centrosome is duplicated other eukaryotic species Centrosome separates ★ Chromosomes during anaphase to form ○Made up of two chromatids spindle fibers attached to the centromere Microtubules from the ★ Chromatids centrosome that form ○ Made up of condensed chromatin spindle fibers pull the sister ★ Chromatin chromatids towards ○ Untangled DNA and protein opposite poles of the cell ★ Gap 2/Growth 2 during anaphase ○ The cell replenishes its energy ○ The two centrosomes will give rise stores and synthesize proteins to the mitotic spindle, the necessary for chromosome apparatus that orchestrates the manipulation movement of chromosomes during ○ Some cell organelle are duplicated mitosis ○ Synthesize protein for ○ We have 46 pairs of chromosomes, chromosomal manipulation we have 46 because if we half the ○ The cytoskeleton dismantles the chromosomes of the parent ○ There may be additional cell growth during G2 PAGE 2 ○ The final preparations for the ○ G0 specialized cell mitotic phase must be completed before the cell is able to enter the MITOTIC PHASE first stage of mitosis ○ When organelles duplicate, cell will ★ Mitotic Phase grow ○ A multistep process during which ○ Small and large subunit of the the duplicated chromosomes are ribosome for protein synthesis and condensed, aligned, separated, chromosomal manipulation and moved to opposite poles of ★ Gap 2 Checkpoint the cell, and then are divided into ○ Bars entry to mitotic phase if two new identical daughter cells certain conditions are not met ○ The actual cell division process ○ Ensures that all chromosomes ○ Formation of two daughter cells have been replicated ○ Types ○ Replicated DNA is not damaged Mitosis - somatic cells ○ If a problem is detected: cell cycle Meiosis - sex cells (gamete) is halted to complete replication or ○ Parts repair the damaged DNA Karyokinesis ★ Mitotic spindle/spindle fiber ○ Formed during cell division after Cytokinesis the cytoskeleton is dismantled ★ Mitosis ★ G0 Phase ○ For body cells ○ Cells are not actively preparing to ○ Includes the: prophase, metaphase, anaphase, telophase, divide and cytokinesis ○ Cells exit the cell cycle ○ Result in formation of the daughter ○ Some cells enter G0 temporarily cells with same amount and kind until an external signal triggers the of chromosomes as the parent cell onset of G0 ★ Meiosis ○ Other cells that never or rarely ○ For reproductive cells/gametes divide such as mature cardiac ○Cell division that result in the muscle and nerve cells, formation of four daughter cell permanently remain in G0 each with half the number of ★ Rates chromosomes of the parent cell ○ Cultured mammalian cells: 24 ★ Karyokinesis hours ○ Movement of nucleus ○ G1: 9 hours ○Only in eukaryotic cells because ○ S: 10 hours prokaryotes have no nucleus ○ G2: 4 ½ hours ★ Cytokinesis ○ M: ½ hour ○ Movement of cell separation ○ Few hours in Early embryonic ★ M Checkpoint development ○ Spindle Checkpoint ○ 5 days for epithelial cells PAGE 3 ○ Occurs near the end of the oncogene when they become metaphase stage of karyokinesis mutated ○ Determines whether all the sister ★ Positive Regulator chromatids are correctly attached ○ Molecules that promote progress to the spindle fiber of the cell cycle to the next phase ○ This is important because if it is ○ Human Epidermal Growth not attached it may caused Receptor 2 (HER 2) disorders such as Down Syndrome Positive regulator in the (Trisomy 21) breast which can cause breast cancer CELL CYCLE REGULATION ★ Negative Regulator ○ Molecules that halt the cell cycle ○ May act independently or ★ Cell Cycle influence independently the ○ Controlled by the regulatory cells activity or production of regulatory and it regulates the cell cycle proteins ★ Cancer ○ Result of unregulated process of the cell cycle due to the POSITIVE REGULATION breakdown of the mechanism that controls the entire process ★ Cyclin ★ Proto-oncogenes ○ Proteins associated with the cell ○ Genes that code for positive cycle of cell division which are regulators during cell cycle thought to initiate certain ○ Normal genes that, when mutated processes of mitosis in certain ways, become ○ Act in conjunction with Cdk to oncogenes, genes that cause a cell regulate cell cycle by to become cancerous phosphorylating key proteins ★ Tumor-suppressor genes ○ Fluctuate through the cell cycle ○ Healthy normal genes that slow ★ Mitotic Cyclin down cell division ○ Synthesized during S & G2 phases ○ Helps to repair DNA mistakes and ★ Kinase also cell apoptosis or cell death ○ Enzyme that catalyzes the transfer ○ Segments of DNA that codes for of phosphatase groups from regulator proteins that prevent the high-energy phosphate-donating cell from undergoing uncontrolled molecules to specific substrate division ★ Cyclin-dependent Kinase (CDK) ★ Oncogenes ○ Functions in phosphorylating other ○ Genes that cause the cell to protein become cancerous ○ Regulates the cell cycle when ○ Both proto-oncogene and tumor bound to cyclin suppressor gene can be an PAGE 4 ★ Oxygen ○ Allows us to produce ATP phosphate needed for the structure of DNA ★ G2 ○ Histones for condensation ○ Microtubules associated protein PHASE CYCLIN CDK PROTEIN for the depolymerization and separation of G1 D 4 and 6 Histones and Rb centrosome and formation Protein of spindle fiber S E 2 Histone and Rb ○ Nuclear lamins protein Cardiogenesis G2 A 1 or 2 Histones, Maintains the structure of microtubules nuclear lamina associated ★ M protein, and ○ Cytokinesis nuclear lamins ○ The enzymes in the cytokinesis M B 1 Enzymes in present in the golgi apparatus are cytokinesis the protein present in the Golgi apparatus ★ G1 ○ Histones for DNA replication ○ Has Retinoblastoma protein which release E2F ★ E2F ○ Transcription factor for DNA ★ Nucleosome replication ○ Subunit of chromatin composed of ○ G1 to S transition a short length of DNA wrapped ★ S around a core of histone proteins ○ Through hydrolysis ATP -> ADP ★ Histones ○ PO4 or Phosphate Molecule comes ○ Associates with DNA to form from ATP nucleosomes PAGE 5 ○ First level of DNA organization in a ★ Apoptosis eukaryotic cell is maintained by ○ Cell death this molecule ○ The leftover organelles are eaten ★ Protein by the phagocytes, white blood ○ Functions of this is for DNA cells, and etc. replication ★ Hypoxia ○ Low oxygen ○ Causes damage to cell because NEGATIVE REGULATION cells need cellular respiration meaning it needs oxygen ★ Retinoblastoma Protein ○ DNA is composed primarily with ○ Group of tumor suppressor oxygen proteins common in many cells ○ Negative if it is not phosphorylated ○ Positive if it is phosphorylated ★ P53 and P21 ○ P53 and P21 are protein in kilodaltons ○ These proteins were damaged or nonfunctional cells that replicate uncontrollably ○ Act primarily in G1 checkpoint when damaged DNAs were detected ★ P53 ○ Recruits enzymes to repair DNA and trigger the production of p21, cell cycle halt, inhibitor of cyclin-dependent kinase by preventing Rb phosphorylation ○ Regulates cell growth and monitors DNA damage ○ Halts progression of cell cycle ★ P21 ○ Binds with CDK and prevent rb phosphorylation ○ Inhibits cell cycle ○ Levels are controlled by p53 ★ Nitrogen Bases ○ Composition of amino acids that can manipulate DNA PAGE 6

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