WBA_153-155

... A. growing new skin cells to repair a cut B. replacing heart cells damaged by heart attacks C. repairing breaks between nerve cells in spinal injuries D. preventing suffering and death caused by cellular damage 10. What is the main reason that embryonic stem cell research is considered ethically con ...

Exploration of a Lung Cancer Cell Line: Resistance and Sensitivity

... self-checking systems, the cell may divide instead of dying. The continuous replication of this faulty cell is what leads to cancer. It is known that only 5% of our DNA actually code for proteins that are transcribed and translated. The remaining 95% of our DNA used to be thought of as junk DNA. Par ...

10_4 Cell Differentiation

... A. growing new skin cells to repair a cut B. replacing heart cells damaged by heart attacks C. repairing breaks between nerve cells in spinal injuries D. preventing suffering and death caused by cellular damage 10. What is the main reason that embryonic stem cell research is considered ethically con ...

Vocabulary from the 1 st 6 weeks

... Cellulose: Cellulose is the chemical that makes the cell wall. We call it “wood”. Cellulose is made of fibers that cross over each other to make a mat. Structure: Plant cells have a cell wall that surrounds the cell. This gives the plant the strength and support that it needs. To help cell wall is ...

Cell structure

... Cell structure and organisation Despite their variety, cells do have certain common characteristics which enable them to be recognised as cells. The organisation in an individual cell as revealed by the electron microscope is known as its ultra-structure. Specific parts making up this organisation a ...

Lecture 13: Innate Immunity

... B. Sometimes pathogen body parts are posted on MHC platforms and used to activate acquired immunity… ...

656. Immobilization of nucleic acid aptamers on macrophages for

Your Pre AP biology final exam

... What is a chromosome? What is chromatin? Where can you find these things? How many chromosomes do you have in your somatic cells? What is a somatic cell How many chromosomes do you have in your gametes? What is a gamete? Why do gametes have a haploid number of chromosomes? Cell cycle: Label the foll ...

6 Cell Fractionation

... The faster the speed at which the tube is spun, the greater the force generated. ...

Section 3 Summary – page 179-187

... • Robert Hooke was an English scientist who lived at the same time as van Leeuwenhock (the first person to use a microscope). • Hooke used a compound light microscope to study cork, the dead part of oak tree bark. • Hooke named the compartments he saw in the cork “cells.” He and some other scientist ...

The Cell - Marblehead High School

... 7-1 worksheet -complete in using your notes and only then, answer use your book to fill in the rest ...

Prokaryote

... Suppose that a scientific idea is well-tested and can be used to make predictions in numerous new situations, but cannot explain one particular event. Which of the following best describes this idea? A hypothesis that is incorrect. A hypothesis that must be retested. A theory that should be discarde ...

Title - Iowa State University

... Which has a membrane-bound nucleus? a. Eukaryotic cells b. Prokaryotic cells Describe prokaryotic cell structure: The chromosome is the most prominent structure. There’s only one and it’s circular and consists of one large DNA molecule with genes. It’s located in the nucleoid region. They also have ...

cell membrane

... • Contains sacs that receive materials from the ER. • Modifies, collects, packages, and distributes molecules within the cell or outside the cell. ...

Cell Organelles and their Functions

... All organisms are made up of one or more cells – The cell is the basic unit of all organisms – all cells come from cells ...

Document

... preimplantation blastocyst and can both self-renew and differentiate into all the cells and tissues of the embryo. Because they are pluripotent, ES cells have been used extensively to analyze gene function in development via gene targeting. The embryonic stem cell is also an unsurpassed starting mat ...

3-1 cell

... Summarize the cell theory What do all cells share? Explain the differences between a Prokaryotic and Eukaryotic Cell. Give an example of each. What makes a virus not alive? ...

AP Biology Ch. 43 Immunity

... Recognizes “self” from “non-self.” ...

Lymphocytes

... 2. Student should know different stage of B-cell maturation in bone marrow, including Immunoglubulin gene rearrangement and B-cell selection. 3. Student should understand the mechanism of interaction between mature Bcell and its specific antigen in secondary lymphoid organ. 4. Student should be know ...

Chapter 2

... a. Replacement tissue for the epidermis b. Constitutes the outer bark c. Cork cambium, a meristematic tissue, produces cork cells and cork ...

ORGANELLE LOCATION DESCRIPTION FUNCTION

... *controls movement of materials in/out of cell *barrier between cell and its environment *maintains homeostasis ...

Imagining strange new lifeforms could help us discover our own

... originally come from outer space and been deposited by meteorites. But there are now extensive examples of how natural processes on Earth can convert simple molecules into these building blocks. Scientists have demonstrated in the lab how to make amino acids, simple sugars, lipids and even nucleotid ...

CHROMOSOMES

... 1. On a sheet of paper, make a drawing of a cell that has the following dimensions: 5 cm x 5 cm x 5 cm. Your partner should draw another cell about one half the size of your cell on a separate sheet of paper. ...

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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.

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Amitosis