Immune response

... • Develop in bone marrow • Meets specific antigen in blood or on an APC • Responds by dividing repeatedly to form a large number of clones • (1) Some will differentiate into plasma cells which rapidly produce more antibody which is released by exocytosis • Antibodies spread around the body and bind ...

printer-friendly sample test questions

... B. cellular respiration. C. resource storage. D. protein synthesis. 6. If the ribosomes stop working in a cell, which cellular process would be most directly affected? A. Photosynthesis B. Aerobic respiration C. Protein synthesis D. Excretion of cellular wastes 2nd Item Specification: Identify the d ...

- Smart Science

... Introduce a model of an animal cell. Tell the class that an animal cell is a bit like a chocolate factory: the nucleus is the office where the recipe is kept and where the factory is controlled from; the factory floor is like the cytoplasm as this is where the chocolate is made and packaged and the ...

Cell City Analogy Assignment

... Name: ____________________ Due Date _________ ...

Chapter 21 Presentation-The Genetic Basis of Development

... and roots. ...

Cell Model Foldable

... a. Label and accurately draw the following structures:  Plasma Membrane  Cytoplasm  Rough Endoplasmic Reticulum  Smooth Endoplasmic Reticulum  Nucleus  Nuclear Membrane (Envelope)  Nucleolus – page 197  Nuclear Pores – page 197  LOTS of Ribosomes (free and attached) ...

Supplementary Information (doc 44K)

... Figure S3. Aphidicolin arrest is reversible in MCF10A and MCF7. MCF7 treated with aphidicolin were able to re-enter cycle once the arrest was removed (a). MCF10A cells were incubated in presence of aphidicolin for 4 days and cultured for 4 days in drug-free medium. The number of micronuclei remaine ...

Cells B - Depoali

... b. They produce nucleic acids that release energy. c. They store energy from sunlight. d. They convert energy from food molecules into energy the cell can use. ____ 13. Why is water important for a cell? a. Water is an essential organic compound for the body. b. All proteins are made of water. c. Mo ...

Cell Theory and Structure

... Organisms can be very broadly classified on the number of cells they are made of. Unicellular organisms are made of only 1 cell; they are the smallest of all living organisms. Ex) some bacteria, many protists ...

Activity: Examining Plant Cells

... Lab Activity: Examining Plant Cells (Elodea) ...

Cells Pre-Test - ESC-2

... 2 Living things are made up of cells. Cells are organized at different levels to form very complex living organisms like your body. Each level has a specific role or job to perform. Which of the following lists these levels in the correct order of organization from the simplest to the most complex? ...

The Cell Cycle: Cell Growth, Cell Division

... perform a specific or related function. • Organ systems are groups of organs that carry out similar functions. ...

In a 1-celled organism

... – Membranes provide surface area for chemical rxns. – Various polypeptides are combined here to make 1 large protein molecule. – These are stored in vesicles and are released when needed. ...

Chapter 1 The Science of Life

... cells (tissues) are organized by their function  Cells  tissues  Tissues  organs  Organs  systems  Systems   ORGANISMCopyright Cmassengale ...

Ch 48: Nervous System – part 1

... 2) GLIAL CELLS (“GLIA”) SUPPORTING CELLS  10 to 50 times more numerous than ...

013368718X_CH04_047-066.indd

... Active Transport The movement of materials against a concentration difference is called active transport. Active transport requires energy. Transport proteins that act like pumps use energy to move small molecules and ions across cell membranes. The bulk transport of large molecules and clumps of ma ...

The Building Blocks of Life

... 1 - Name: Cell Wall 2 - Picture – this should be an illustration that shows what the structure does; what is the function of the structure? NOT a picture straight from textbook. 3 - Description of the picture that you came up with; Example: the offensive line protects the quarterback. ...

Phagocytosis

... Leukocytes are important in immunity. Leukocytes are the cells primarily responsible for the defense of the body against microorganisms, there are several subsets of leukocytes, each with special function. They are the granulocytes, including eosinophils, basophils, neutrophils and mononuclear phago ...

Critical Thinking

... 28. Vesicles are used for temporary transport and storage. Vacuoles tend to be more permanent features of a cell. 29. Only cells with the proper receptors will respond to a specific ligand. ...

Stem cells

... type of cell, it is not specialised • All animal cells originate from embryo stem cells. During the development of an embryo, most of these cells become specialised. They cannot later change to become a different type of cell. This process is called cell differentiation. • Adult stem cells can grow ...

Cell Design and Function

... • Digests excess or worn out organelles, food particles, bacteria, & viruses. • Has a membrane to protect the rest of the cell from the strong digestive enzymes. ...

What is the cell membrane?

... pigment in plant chloroplasts that is important in photosynthesis. ...

Biofundamentals -Cell Death: Necrosis and Apoptosis

... An important side-effect of these changes is the loss of the ability to regulate the intracellular environment. The normal intracellular concentration of Ca2+ is generally less that 10-7 M. The concentration of Ca2+ outside the cell is generally much higher, on the order of 10-3 M. There are also hi ...

CHROMOSOMES - Bishop Montgomery High School

... Bacteria reproduce using __________________________________ ...

Manual: AAV-293 Cells

... Notes All procedures must be performed using sterile technique in a laminar flow hood. For general information on mammalian cell culture and sterile technique, see reference 2. AAV-293 cells do not adhere well to tissue culture dishes and have a tendency to clump. When exchanging solutions, gently p ...

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Cell culture

Cell culture is the process by which cells are grown under controlled conditions, generally outside of their natural environment. In practice, the term ""cell culture"" now refers to the culturing of cells derived from multicellular eukaryotes, especially animal cells, in contrast with other types of culture that also grow cells, such as plant tissue culture, fungal culture, and microbiological culture (of microbes). The historical development and methods of cell culture are closely interrelated to those of tissue culture and organ culture. Viral culture is also related, with cells as hosts for the viruses. The laboratory technique of maintaining live cell lines (a population of cells descended from a single cell and containing the same genetic makeup) separated from their original tissue source became more robust in the middle 20th century.

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Cell culture