CELL TRANSPORT NOTES

...  Cell transport needs to happen because cells need to __IMPORT___ certain materials to perform the life processes within its cytoplasm and need to __EXPORT____ materials created by the life process into the extra-cellular space.  The life process that most depends upon cell transport is ____METABO ...

Biological Membranes

...  Uses energy in the form of ATP  Pumps two K+ ions into the cell for every three Na+ ions it pumps out  This causes an electrical as well as chemical gradient across the cell membrane – an electrochemical gradient  This gradient stores energy for the cell and can be used to help drive other tran ...

Year 11 Worksheet Cells - VCE

... ____________, ____________, and DNA. 3. Proteins are made on the ____________. 4. A ____________ is a typical prokaryotic cell. 5. ____________ cells are usually larger than ____________ cells. 6. ____________ contain digestive enzymes for intracellular digestion. 7. ____________ contain DNA, but do ...

Presentation

... • All cells are considered Open Systems in their natural settings because there are materials coming into the cell from the surrounding environment; as well as, materials leaving the cell and going into the surrounding environment. The cell is open to interaction with the environment. • Remember, ce ...

Instructions: Pair: - On the teacher`s signal, students will arrange

... Describe the process of homeostasis and tell what happens to an organism if there is a major disruption in an organism’s homeostasis. Tell what it means to evolve. Explain why “common names” are not always good for scientific work. Name the kingdom that was formed to accommodate the “microorganisms ...

Binary Fission - hrsbstaff.ednet.ns.ca

... Binary Fission – Step 3 The cell grows larger and the chromosomes separate and move to opposite poles of the cell. The cell membrane begins to pinch inward, separating the two identical chromosomes. ...

Cells

... DNA that contain the genetic info  CHROMATIN – uncondensed DNA found in non-dividing cells ...

Chapter 7

... ____1. holds nucleus together ____2. surface for chemical activity ____3. units of heredity ____4. digestion center ____5. where proteins are made ____6. structures involved in mitosis in animal cells only ____7. hollow cylinder that supports and shapes cell ____8. shapes and supports a plant cell _ ...

Cell Theory, Structure and Transport Chapter 7 PAP Guided Reading

... The Discovery of the Cell The invention of the microscope in the 1600s enabled researchers to see cells for the first time. Robert Hooke named the empty chambers he observed in cork “cells.” Cells are the basic units of life. Cell theory, states: All living things are made of cells. Cells are the ba ...

Exam practice answers 2

... ...

Osmosis in Cells - BIFS IGCSE SCIENCE

... by osmosis until they become shrunken or haemolysed. ...

Original

... travel through sieve cells (long, narrow).  In angiosperms, nutrients transported through sieve tubes, which consist of chains of sieve-tube elements or sieve-tube members.  Sieve-tube elements: lack nucleus, ribosomes, distinct vacuoles, cytoskeletal elements. Reduction allows nutrients to pass m ...

Cellular Transport Unit - Winona Senior High School

... then inside the cell is hypertonic and vice versa ** Water tends to diffuse from hypotonic to hypertonic ...

connective tissue

... • Excitable cells • When stimulated, an electrical impulse ...

Afraid of the Dark - Dr. Lodge McCammon

... 3. All cells are produced from other cells The first to see it Hooke was wow’d by a cork When he put it under a microscope What was Robert Hooke’s contribution to cell discovery? In the 1600s Robert Hooke was the first to look at cork under a microscope. He noticed that it looked like honey-comb. Th ...

cells - Bremen High School District 228

... separate and take up positions on opposite sides of the nucleus •Help organize the spindle that separate the chromosomes ...

Cell Structure and Organisation

... Mitochondria: Structures within the cytoplasm where oxygen is used and energy is ...

3 - cloudfront.net

... the cell. d. too many solutes. 12. Transport proteins play a role in both a. passive and active transport. b. exocytosis and endocytosis. c. diffusion and vesicle transport. d. phagocytosis and passive transport. ...

KINGDOMS OF ORGANISMS

... Chromosome—usually a single, circular piece of DNA Ribosome—used for making proteins Plasmid—small circular piece of DNA Cell membrane (a.k.a. plasma membrane)— separates the cell from its external environment Pili—short, hairlike structures involved in reproduction and cell-to-cell contact Cell wal ...

Document

... 17. Rough ER is connected to the _____________ membrane and to __________ER. 18. Give 3 jobs for smooth ER. a. b. c. Chloroplasts are elongated or disc-shaped organelles containing chlorophyll that trap sunlight for energy. Photosynthesis (in which energy from sunlight is converted into chemical ene ...

Cells

... haploid sets of chromosomes - now diploid. – Diploid cell; 2n = 46. (n=23 in humans) ...

Cells - CARNES AP BIO

... As an object increases in size its volume increases as the cube of its linear dimensions while surface area increases as the square. As these cubes illustrate the surface area to volume ratio of a small object is larger than that of a large object of similar shape. This ratio limits how large cells ...

Cell biology topics

... matricicrine, autocrine, introacrine effects. Why could the same induction result in different, or no, response in different cells? Induction 'window'. Primary organization center, secondary organizers, Induction chain. How does this affect the appearance of certain conserved (primordial) structures ...

chapter 8.pmd

... Is extra genomic DNA present in prokaryotes and eukaryotes? If yes, indicate their location in both the types of organisms. ...

Kingdom Characteristics

... Kingdom Archaebacteria • Archaea have a chemically unique cell wall and membranes and a unique genetic system. • Scientists think that archaea evolved in a separate lineage from bacteria early in Earth’s history. • Scientists also believe that some archaea eventually gave rise to eukaryotes. ...

< 1 ... 777 778 779 780 781 782 783 784 785 ... 1231 >

Amitosis

Amitosis (a- + mitosis) is absence of mitosis, the usual form of cell division in the cells of eukaryotes. There are several senses in which eukaryotic cells can be amitotic. One refers to capability for non-mitotic division and the other refers to lack of capability for division. In one sense of the word, which is now mostly obsolete, amitosis is cell division in eukaryotic cells that happens without the usual features of mitosis as seen on microscopy, namely, without nuclear envelope breakdown and without formation of mitotic spindle and condensed chromosomes as far as microscopy can detect. However, most examples of cell division formerly thought to belong to this supposedly ""non-mitotic"" class, such as the division of unicellular eukaryotes, are today recognized as belonging to a class of mitosis called closed mitosis. A spectrum of mitotic activity can be categorized as open, semi-closed, and closed mitosis, depending on the fate of the nuclear envelope. An exception is the division of ciliate macronucleus, which is not mitotic, and the reference to this process as amitosis may be the only legitimate use of the ""non-mitotic division"" sense of the term today. In animals and plants which normally have open mitosis, the microscopic picture described in the 19th century as amitosis most likely corresponded to apoptosis, a process of programmed cell death associated with fragmentation of the nucleus and cytoplasm. Relatedly, even in the late 19th century cytologists mentioned that in larger life forms, amitosis is a ""forerunner of degeneration"".Another sense of amitotic refers to cells of certain tissues that are usually no longer capable of mitosis once the organism has matured into adulthood. In humans this is true of various muscle and nerve tissue types; if the existing ones are damaged, they cannot be replaced with new ones of equal capability. For example, cardiac muscle destroyed by heart attack and nerves destroyed by piercing trauma usually cannot regenerate. In contrast, skin cells are capable of mitosis throughout adulthood; old skin cells that die and slough off are replaced with new ones. Human liver tissue also has a sort of dormant regenerative ability; it is usually not needed or expressed but can be elicited if needed.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Amitosis