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Name - Triton Science
... Cell Review Directions: Answer the following questions using your notes and chapters 3-5 in your textbook. The test will be 70 multiple choice questions covering this material. ...
... Cell Review Directions: Answer the following questions using your notes and chapters 3-5 in your textbook. The test will be 70 multiple choice questions covering this material. ...
biology lecture notes chapters 4 and 5 - Cole Camp R-1
... dumps insulin into bloodstream to stabilize glucose level 2) ______________________________________ - especially important in cold-blooded animals ...
... dumps insulin into bloodstream to stabilize glucose level 2) ______________________________________ - especially important in cold-blooded animals ...
Chapter 2 Study Guide - Conackamack Middle School
... a. Eukaryotes vs. prokaryotes i. Definitions of each ii. Differences between the two b. Organelles of the plant and animal cells i. Structure of each ii. Function of each c. Similarities/Differences of plant and animal cells d. Vocabulary to include – organelle, cell membrane, cell wall, vacuole, ly ...
... a. Eukaryotes vs. prokaryotes i. Definitions of each ii. Differences between the two b. Organelles of the plant and animal cells i. Structure of each ii. Function of each c. Similarities/Differences of plant and animal cells d. Vocabulary to include – organelle, cell membrane, cell wall, vacuole, ly ...
Cells Jeopardy
... The process of movement of water across a semipermeable membrane is called what? ...
... The process of movement of water across a semipermeable membrane is called what? ...
Chemistry of Macromolecules
... • Fatty acid tail Used for: • Long term energy storage • Insulation • Major component of ...
... • Fatty acid tail Used for: • Long term energy storage • Insulation • Major component of ...
Mitosis
... Two new nuclei form, each with a full set of chromosomes. Each ‘double’ chromosome splits into its two identical copies. The duplicated chromosomes line up across the centre of the cell. Each cell is genetically identical to each other and to the parent cell. Each copy moves to opposite poles (ends) ...
... Two new nuclei form, each with a full set of chromosomes. Each ‘double’ chromosome splits into its two identical copies. The duplicated chromosomes line up across the centre of the cell. Each cell is genetically identical to each other and to the parent cell. Each copy moves to opposite poles (ends) ...
Ch_2
... that you feel after doing strenuous exercise, especially when you haven’t exercised for long periods of time. ...
... that you feel after doing strenuous exercise, especially when you haven’t exercised for long periods of time. ...
Review Module Macromolecules, Cell Theory, Organelles, Cell
... 14. In a eukaryotic cell, the job of creating a protein is very important. Describe how the nucleus, ribosomes, ER and Golgi would all work together to help the cell perform this function. ...
... 14. In a eukaryotic cell, the job of creating a protein is very important. Describe how the nucleus, ribosomes, ER and Golgi would all work together to help the cell perform this function. ...
File
... Two-Column Chart A two-column chart is a way to take notes about what you read using words and pictures. Look at the two-column chart below. The topic is at the top of the chart. In the left column, stages of the cell cycle are listed. In the right column, you will write a description and draw a pic ...
... Two-Column Chart A two-column chart is a way to take notes about what you read using words and pictures. Look at the two-column chart below. The topic is at the top of the chart. In the left column, stages of the cell cycle are listed. In the right column, you will write a description and draw a pic ...
12/10/09
... To understand the functions carried on by the different parts of the cell, you must first understand why these parts are even needed. The easiest analogy is to compare a cell to a factory. ...
... To understand the functions carried on by the different parts of the cell, you must first understand why these parts are even needed. The easiest analogy is to compare a cell to a factory. ...
APPLIED BIOLOGY MID-TERM STUDY GUIDE
... Active tranportation across the membrane o Endocytosis o Exocytosis o Pumps (sodium and potassium pumps) ...
... Active tranportation across the membrane o Endocytosis o Exocytosis o Pumps (sodium and potassium pumps) ...
Viruses - MrKanesSciencePage
... Bacteriophage (aka phage) – virus that infects bacteria Reproduction – 2 methods o Lytic Cycle – virus enters cell, makes copies of itself, and causes cell to burst or lyse (“break open”) 1. Adsorption – virus attaches to a host cell 2. Entry – capsid contracts, injecting DNA into bacterial cell ...
... Bacteriophage (aka phage) – virus that infects bacteria Reproduction – 2 methods o Lytic Cycle – virus enters cell, makes copies of itself, and causes cell to burst or lyse (“break open”) 1. Adsorption – virus attaches to a host cell 2. Entry – capsid contracts, injecting DNA into bacterial cell ...
Lesson 3.1– CELL CYCLE AND CELL DIVISION
... the two strands of DNA are called sister chromatids; the cell still continues to function according to its specialization G2 - the third stage of interphase when the copied DNA is organized around sister chromatids that bound together as chromosomes; the cell continues to function according to its s ...
... the two strands of DNA are called sister chromatids; the cell still continues to function according to its specialization G2 - the third stage of interphase when the copied DNA is organized around sister chromatids that bound together as chromosomes; the cell continues to function according to its s ...
Chapter 2 – Cell Processes and Energy
... 2. In diagram form 3. In EQUATION form c. Photosynthesis and respiration can be thought of as opposites 1. Why? 2. What do the two processes do for the levels of oxygen and carbon dioxide in the atmosphere? d. Similarities/differences between RESPIRATION and FERMENTATION e. Vocabulary – respiration, ...
... 2. In diagram form 3. In EQUATION form c. Photosynthesis and respiration can be thought of as opposites 1. Why? 2. What do the two processes do for the levels of oxygen and carbon dioxide in the atmosphere? d. Similarities/differences between RESPIRATION and FERMENTATION e. Vocabulary – respiration, ...
Lecture 6: Cell division
... divide, result in separating the sister chromatids. Each is then pulled toward the pole to which it is attached by spindle fibers. By the end, the two poles ...
... divide, result in separating the sister chromatids. Each is then pulled toward the pole to which it is attached by spindle fibers. By the end, the two poles ...
Biology Test 1 Study Guide – Things to know
... 37. Which organelle converts food energy into energy the cell can use? 38. At which organelle does protein synthesis occur? (i.e., which organelle makes proteins?) 39. In which type of cells are chloroplasts found? 40. Which types of cells definitely do not have cell walls? 41. The cell membrane con ...
... 37. Which organelle converts food energy into energy the cell can use? 38. At which organelle does protein synthesis occur? (i.e., which organelle makes proteins?) 39. In which type of cells are chloroplasts found? 40. Which types of cells definitely do not have cell walls? 41. The cell membrane con ...
5.3 Regulation of the Cell Cycle
... • Cancer cells do not carry out necessary functions. • Cancer cells come from normal cells with damage to genes involved in cell-cycle regulation. ...
... • Cancer cells do not carry out necessary functions. • Cancer cells come from normal cells with damage to genes involved in cell-cycle regulation. ...
Cell Quiz - Catawba County Schools
... 1. Which cell structure contains the cell’s genetic material and controls many of the cell’s activities? a. organelle c. cell envelope b. nucleus d. cytoplasm 2. Cells fall into two broad categories, depending on whether they a. have a cell wall. c. have a nucleus. b. contain genetic material. d. co ...
... 1. Which cell structure contains the cell’s genetic material and controls many of the cell’s activities? a. organelle c. cell envelope b. nucleus d. cytoplasm 2. Cells fall into two broad categories, depending on whether they a. have a cell wall. c. have a nucleus. b. contain genetic material. d. co ...
organs inside the cell Golgi complex
... Cells have different shapes and sizes. Their shape depends on the job they do. Their form (shape) follows their function (job) Cells have a nucleus. The nucleus is the center of the cell and holds the directions for the cell. 4 macromolecules in cells Proteins – the food in a cell – hair, nails and ...
... Cells have different shapes and sizes. Their shape depends on the job they do. Their form (shape) follows their function (job) Cells have a nucleus. The nucleus is the center of the cell and holds the directions for the cell. 4 macromolecules in cells Proteins – the food in a cell – hair, nails and ...
Cell cycle
The cell cycle or cell-division cycle is the series of events that take place in a cell leading to its division and duplication (replication) that produces two daughter cells. In prokaryotes which lack a cell nucleus, the cell cycle occurs via a process termed binary fission. In cells with a nucleus, as in eukaryotes, the cell cycle can be divided into three periods: interphase, the mitotic (M) phase, and cytokinesis. During interphase, the cell grows, accumulating nutrients needed for mitosis, preparing it for cell division and duplicating its DNA. During the mitotic phase, the cell splits itself into two distinct daughter cells. During the final stage, cytokinesis, the new cell is completely divided. To ensure the proper division of the cell, there are control mechanisms known as cell cycle checkpoints.The cell-division cycle is a vital process by which a single-celled fertilized egg develops into a mature organism, as well as the process by which hair, skin, blood cells, and some internal organs are renewed. After cell division, each of the daughter cells begin the interphase of a new cycle. Although the various stages of interphase are not usually morphologically distinguishable, each phase of the cell cycle has a distinct set of specialized biochemical processes that prepare the cell for initiation of cell division.