Differentiate between active and passive transport

... cell in vesicles. – Phagocytosis The movement of large particles or whole cells into the cell in vesicles. – Receptor-mediated endocytosis (not in your book) When particles bind to receptor proteins it causes the cell to pull the bound particles into the cell. ...

Document

... Movement of molecules from an area of high concentration to an area of lower concentration, speeded by large openings in the cell membrane ...

Study Guide for Fall Final

... Know the cell theory. History of the cell (Robert Hooke, etc.) ...

Passive Transport - ms. tuldanes` science class

... high concentration to an area of from an area of _____ low concentration. ___ water though a 2. Osmosis ________: The movement of _____ selectively permeable membrane from an area of ____________________ high concentration to an area of low ____ ___ concentration 3. Facilitated ________________ diff ...

Profile

... Polymer (N-acetyl glucosamine, Nacetyl muramic acid, amino acids) FUNCTION: - Protects everything inside the cell - Provides rigidity to plants - Regulates growth of plants and protects it from disease -Provides a porous area for the distribution of water and other nutrients -Prevents cell from burs ...

NOT animal cells.

... Chloroplasts are where PHOTOSYNTHESIS occurs. • Contain chlorophyll, a green pigment that traps the energy from light. • Found in plant cells and some protists, NOT found in animal cells. ...

I. Cell Components

... endosomes (vesicles up to 1 µm in diameter) are often located in the periphery of the cell and receive most of types of vesicles coming from the cell surface. They are principally sorting organelles where many ligands dissociate from their receptors in the acid pH of the lumen and from which many of ...

Study Guide, Section 2

... Study Guide, Section 2: Mitosis and Cytokinesis ...

C, O, N - Madeira City Schools

... II. Structure of Bacteria A. Type of cell – Prokaryotic 1. no nucleus or membrane bound organelles B. DNA is found in the cytoplasm as one circular chromosome C. Contains ribosomes (not membrane bound) D. Drawing of a typical cell: 1. Flagella – moves bacteria 2. Chromosome – one circular piece…are ...

Mapping Resources, Activities and Assessment Strategies to

... contrast table • Students debate which cell division terms go with meiosis or mitosis • Students draw annotated diagrams of normal and abnormal cell division • Students write an essay explaining different forms of abnormal cell division • Students complete a case study analysis of a patient with a s ...

Introduction: plant cell wall proteins

... the (glyco)protein level. The structural organization of AGP sequences is thus compared based upon both protein and DNA information. Next, it was the finding that some AGPs are attached to the plasma membrane by a glycosylphosphatidylinositol (GPI) anchor that further revolutionized the AGP field an ...

10. Plasmolysis and the effect of Osmosis on Cells

... lower water concentration) than the cytoplasm, water will tend to leave the cell. The cell will shrink and the cell membrane will exert no turgor pressure. The cell will be flaccid. As water continues to be lost the cytoplasm will shrink within the cell wall. In this state, cells are said to be plas ...

Ribosomes

... Ribosomes are small organelles where protein synthesis occurs , it is composed of two subunits , one large and one small . Ribosomes can be found free in the cytoplasm either singly or in groups called poly ribosomes, also can be found attached to endoplasmic reticulum and can be found stored in nuc ...

A Cell is like a Factory

... A Cell is like a Factory ...

Classification (Taxonomy)

... Thermaphiles—live in extreme temperatures Halophiles—live in high saline ...

File

... 1. Why is the sodium-potassium transport mechanism called a “pump”? _______ _______________________________________________________________ 2. Explain how a phagocyte destroys bacteria. ____________________________ _______________________________________________________________ _____________________ ...

Cells labelling activity

... Cells, organs and life processes ...

Homeostasis and Cell Transport

...  water pressure in plant cells  hypotonic environment ...

Why dread a bump on the head? October 2014 Lesson 5: What

... 3. The nucleus then breaks into several discrete bodies called chromatin bodies each containing condensed, systematically fragmented chromatin DNA. 4. The whole cell breaks apart into circular components called apoptotic bodies. These apoptotic bodies are enclosed inside cellular membrane. 5. During ...

Cell Organelles

... lipids, carbs, and proteins into small molecules that can be used by the rest of the cell. Remove “junk” that otherwise accumulate and clutter up the cell. Acts as the “cleanup crew” of the factory. ...

Cells 2 Quail

... The UPS of the cell ...

Topic Report Cell Death: From Morphological to Molecular Definitions

... Different Modes of Cell Death Cell death mode ...

Cell parts powerpoint

... what is allowed in or out of the cell. ...

View PDF

... 19. How does Paramecium osmoregulate? You may not know it, but this is something you really want to know. In fact, whether you care or not, you’ve reached a crossroads in your journey to be as awesome as me. Choose the right path and you might just walk the rice paper without leaving a trace. ...

CellsandHeredityCh1S..

... a. All living things are made up of cells. b. The cell is the smallest unit of a living thing. c. The cell is the basic unit of function in an organism. ...

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Cell wall

The cell wall is a tough, flexible and sometimes rigid layer that surrounds some types of cells. It surrounds the cell membrane and provides these cells with structural support and protection. In addition, the cell wall acts as a filtering mechanism. A major function of the cell wall is to act as a pressure vessel, preventing over-expansion when water enters the cell. Cell walls are found in plants, fungi and prokaryotic cells but not in mycoplasmas.The composition of the cell wall varies between species and may depend on cell type and developmental stage. The primary cell wall of land plants is composed of the polysaccharides cellulose, hemicellulose and pectin. In bacteria, peptidoglycan forms the cell wall. Archaean cell walls have various compositions, and may be formed of glycoprotein S-layers, pseudopeptidoglycan, or polysaccharides. Fungi possess cell walls made of the glucosamine polymer chitin, and algae typically possess walls made of glycoproteins and polysaccharides. Unusually, diatoms have a cell wall composed of biogenic silica. Often, other accessory molecules are found anchored to the cell wall.

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Cell wall