Nucleotides and nucleic acids
Cards (100)
- MultipotentStem cells that can only form into a limited range of cells determined by the type of tissue, e.g. haematopoietic stem cells give rise to various types of blood cells
- PluripotentStem cells that can divide into any type of cell but cannot form a full organism
- TotipotentA stem cell that can divide into any type of cell and can form a whole organism, e.g. the first 8/16 cells of an embryo
- Stem cell potenciestotipotent, pluripotent, multipotent
- Stem cellsundifferentiated cells that are able to renew themselves for long periods of time by cell division
- Categories of tissues in plants- Epidermis tissue, adapted to cover plant surfaces- Vascular tissue, adapted for water and nutrient transport
- Categories of tissues in animals• nervous tissue, adapted to support the transmission of electrical impulses• epithelial tissue, adapted to cover body surfaces, internal and external• muscle tissue, adapted to contract• connective tissue, adapted either to hold other tissues together or as a transport medium.
- Examples of Organ Systemsdigestive system, circulatory system, gas exchange system
- Layers of organisationSpecialised cells -> Tissues -> Organs -> Organ Systems -> Whole Organism
- Crossing overProcess in which homologous chromosomes exchange portions of their chromatids during meiosis.
- Meiosis IISimilar to mitosis, the intermediate cells divide again to form a total of 4 gametes
- Meiosis IThe first division in meiosis when the pairs of homologous chromosomes are separated into two cells. Each intermediate cell will only contain one full set of genes, so the cells are haploid
- Stages of MeiosisMeiosis I: Prophase I, Metaphase I, Anaphase I, Telophase IMeiosis II: Prophase II, Metaphase II, Anaphase II, Telophase II
- LocusPosition of a gene on a chromosone
- AllelesDifferent versions of a gene with the same locus
- Homologous chromosonesEach pair of chromosomes has the same genes and loci
- MeiosisCell division that produces 4 haploid gametes in sexually reproducing organisms
- Differences in mitosis between plant and animal cellsAnimal Cells:- A cleavage furrow forms around the cell centre, the cell-surface membrane is pulled inwards until it is close enough to fuse around the middle and then does so, forming two cellsPlant cells:- No cleavage furrow is formed due to the cell wall- Vesicles from the Golgi apparatus begin to assemble in the cell centre, the vesicles fuse with each other and the cell surface membrane, dividing the cell into two- New sections of cell wall then form along the new sections of membrane to prevent osmotic lysis
- CytokinesisDivision of the cell into two separate cells, beginning during telophase
- TelophaseThe fourth and final phase of cell division in which the chromatids or chromosomes at the poles of the cell and two nuclei are formed as nuclear envelopes and necleoli form.
- AnaphaseThe third phase of mitosis, during which the chromosome pairs separate after the centromeres divide and move toward opposite poles, moving in a v shape due to being dragged through Cytosol
- MetaphaseSecond phase of mitosis, during which the chromosomes line up across the centre of the cell, forming the metaphase plate
- Prophasefirst and longest phase of mitosis, during which the chromosomes become visible and the centrioles separate, the nucleolus and nuclear envelope disappear and take up positions on the opposite sides of the nucleus
- Process of Prophase1) Chromatin fibres begin to coil and condense to form chromosomes. The nucleolus disappears and the nuclear membrane begins to break down.2) Protein microtubules form spindle structures linking the poles of the cell3) The centrioles migrate to opposite poles of the cell4) The spindle fibres attach to specific areas on the centromeres and start to move the chromosomes to the centre of the cell5) By the end of prophase, the nuclear envelope has dissapeared
- ChromosomeContains genetic information
- Chromatidstwo identical chromosomes that split and contain the same genetic material
- CentromereArea where the chromatids of a chromosome are attached
- Phases of Mitosisprophase, metaphase, anaphase, telophase
- MitosisCell division into two identical daughter cells
- Spindle assembly/metaphase checkpointcheckpoint for chromosome attachment to spindles, and chromosome alignment.
- G2 checkpointThe cell checks to make sure the DNA is copied correctly
- G1 checkpointchecks to see if cell size is adequate, chromosomes replication is successfully completed and checks for DNA errors
- Checkpointscontrol mechanisms of the cell cycle.
- Senescent cellsCells that can no longer divide
- Reasons for G0 phase- Differentiation: The cell becomes specialised and is no longer able to divide, causing it to carry out its function indefinitely and not to enter the cell cycle again- DNA damage renders the cell unviable: A damaged cell can no longer divide, causing it to enter a period of permanent cell arrest
- Mitosis (Mitotic phase)The nucleus divides
- G0The phase in which the cell leaves the cycle, whether permanently or temporarily
- Cytokinesis (mitotic phase)The cytoplasm divides, producing two cells
- Mitotic phaseThe phase in which the cell divides into two new cells
- Stages of InterphaseG1 - Growth phase: Proteins used for organelle synthesis are produced and organelles replicate, causing the cell to grow in sizeS - Synthesis Phase: DNA is replicated in the NucleusG2 - Second Growth Phase: The Cell continues to grow in size while energy stores are increased and duplicated DNA is checked for errors