1. Prokaryotic Cell Structure A. Cell Shape 9/1/2016 1
... • metabolize fats for heat production, degrade toxins • H2O2 byproduct is “neutralized” by catalase ...
... • metabolize fats for heat production, degrade toxins • H2O2 byproduct is “neutralized” by catalase ...
Focus Lens PowerPoint Template
... All assignments for the week can be accessed through this Power Point and Schoology. All assignments are required to be in the notebook in order-with titles! ...
... All assignments for the week can be accessed through this Power Point and Schoology. All assignments are required to be in the notebook in order-with titles! ...
File - Mr. Coach Risinger 7Y Science
... The cell’s main job is to organize the functions of the living organism. Many cells working together for a common function form tissue. There are many different kinds of tissue. Muscle tissue helps with movement. Cardiac tissue controls the heart. Nerve tissue carries messages from the brain to loca ...
... The cell’s main job is to organize the functions of the living organism. Many cells working together for a common function form tissue. There are many different kinds of tissue. Muscle tissue helps with movement. Cardiac tissue controls the heart. Nerve tissue carries messages from the brain to loca ...
Kingdom Protista - Animal
... Euglena are both Heteotrophs and a Autotrophs. o Heterotrophs – Euglena consume food for energy. Euglenas can eat nutrients by absorbing them across their cell membrane when light is not available. ...
... Euglena are both Heteotrophs and a Autotrophs. o Heterotrophs – Euglena consume food for energy. Euglenas can eat nutrients by absorbing them across their cell membrane when light is not available. ...
Cells
... to rough endoplasmic reticulum (ER) (fixed ribosomes) Participates in protein synthesis by manufacturing of polypeptides (translation) ...
... to rough endoplasmic reticulum (ER) (fixed ribosomes) Participates in protein synthesis by manufacturing of polypeptides (translation) ...
Introduction to Course and Cell Cycle - March 21
... • We typically divide interphase into three phases – the G1 phase (for Gap 1), the S phase (for synthesis), and G2 phase (for gap 2). • The cell only duplicates its chromosomes (DNA) during the S synthesis phase. Thus a cell grows (G1), continues to grow as it synthesizes DNA and duplicates chromoso ...
... • We typically divide interphase into three phases – the G1 phase (for Gap 1), the S phase (for synthesis), and G2 phase (for gap 2). • The cell only duplicates its chromosomes (DNA) during the S synthesis phase. Thus a cell grows (G1), continues to grow as it synthesizes DNA and duplicates chromoso ...
Bacteria/Virus PPT
... A virus particle, or virion, consists of the following: Nucleic acid - Set of genetic instructions, either DNA or RNA, either single-stranded or double-stranded Coat of protein (capsid) - Surrounds the DNA or RNA to protect it Lipid membrane - Surrounds the protein coat (found only in some viruses, ...
... A virus particle, or virion, consists of the following: Nucleic acid - Set of genetic instructions, either DNA or RNA, either single-stranded or double-stranded Coat of protein (capsid) - Surrounds the DNA or RNA to protect it Lipid membrane - Surrounds the protein coat (found only in some viruses, ...
Laboratory 1 - Vascular Plant Anatomy One of the major distinctions
... the internal organization. The emergence of primordial organs, in particular, may be facilitated by examining just the surface layers. The easiest method includes the use of a simple dissecting microscope. The usefulness of this may be extended by using off-axis illumination or stains to increase vi ...
... the internal organization. The emergence of primordial organs, in particular, may be facilitated by examining just the surface layers. The easiest method includes the use of a simple dissecting microscope. The usefulness of this may be extended by using off-axis illumination or stains to increase vi ...
Jan. 2004 Regents Exam
... controls what goes in and out of the cell. It provides a safe environment for protein synthesis to occur. ...
... controls what goes in and out of the cell. It provides a safe environment for protein synthesis to occur. ...
Spontaneous Generation and the Discovery of the Cell
... Spontaneous Generation and the Discovery of the Cell Using the information you read in “The Debate Over Spontaneous Generation” and “Discovery of the Cell and Mitosis”, answer the following questions, and create a historical timeline. 1 Which of the following scientists gave us a modern understandin ...
... Spontaneous Generation and the Discovery of the Cell Using the information you read in “The Debate Over Spontaneous Generation” and “Discovery of the Cell and Mitosis”, answer the following questions, and create a historical timeline. 1 Which of the following scientists gave us a modern understandin ...
Cell Organelleshlinka
... An organelle is a membranebound structure that carries out specific activities for the cell. ...
... An organelle is a membranebound structure that carries out specific activities for the cell. ...
Unit 2, Module 3 Cell Structure
... i. Fluid – Individual phsopholipds and proteins can move past each other; they are not fixed in one position. ii. Mosaic – The membrane has more than one type of molecule (phospholipids and proteins) 5. Functions of the cell membrane i. Selectively permeable – regulates what enters and leaves the ce ...
... i. Fluid – Individual phsopholipds and proteins can move past each other; they are not fixed in one position. ii. Mosaic – The membrane has more than one type of molecule (phospholipids and proteins) 5. Functions of the cell membrane i. Selectively permeable – regulates what enters and leaves the ce ...
Chapter 4 – Part B: Prokaryotic (bacterial) cells
... Chapter 4 – Part B: Prokaryotic (bacterial) cells ...
... Chapter 4 – Part B: Prokaryotic (bacterial) cells ...
What is a Cell
... 8. *Vacuole: They are sort of like a ___________________ bubble in the cytoplasm. Vacuoles in animal cells are considerably ________________ than those in plant cells. In animal cells, vacuoles may store food that needs to be ____________________. Vacuoles can also store the indigestible ___________ ...
... 8. *Vacuole: They are sort of like a ___________________ bubble in the cytoplasm. Vacuoles in animal cells are considerably ________________ than those in plant cells. In animal cells, vacuoles may store food that needs to be ____________________. Vacuoles can also store the indigestible ___________ ...
Cell Basics 1. What are tiny structures found inside of cells called? 2
... 24. What organelle found in plant cells, is also found in some protist cells, but NOT in animal cells? ...
... 24. What organelle found in plant cells, is also found in some protist cells, but NOT in animal cells? ...
Chapter 7,8,9 review sheet
... Section 7.1 - Life is Cellular o Explain the importance of microscopes to the discovery of cells o Name and explain the three principles of cells theory 1) Any living thing is made of cells 2) Cells are the smallest units of structure and function in the organism 3) New cells can only be produced fr ...
... Section 7.1 - Life is Cellular o Explain the importance of microscopes to the discovery of cells o Name and explain the three principles of cells theory 1) Any living thing is made of cells 2) Cells are the smallest units of structure and function in the organism 3) New cells can only be produced fr ...
Name
... 21. Active transport moves molecules [ with | against ] the concentration gradient. 22. Active transport requires _____________________________ 23. What molecules supplies the energy for active transport? _________________ 24. Changes in protein shape seem to play an important role in the __________ ...
... 21. Active transport moves molecules [ with | against ] the concentration gradient. 22. Active transport requires _____________________________ 23. What molecules supplies the energy for active transport? _________________ 24. Changes in protein shape seem to play an important role in the __________ ...
Endoplasmic Reticulum
... Cytoplasm Nucleus Mitochondrion Golgi Reticulum Endoplasmic Reticulum (ER) ...
... Cytoplasm Nucleus Mitochondrion Golgi Reticulum Endoplasmic Reticulum (ER) ...
Cell Transport
... the cell than inside the cell Have more water outside the cell so water moves into the cell Causes an increase in pressure inside the cell: called turgor pressure (plants) or osmotic pressure (animals). Increase in pressure in animal cells causes them to swell or even burst; gives plant cells shape ...
... the cell than inside the cell Have more water outside the cell so water moves into the cell Causes an increase in pressure inside the cell: called turgor pressure (plants) or osmotic pressure (animals). Increase in pressure in animal cells causes them to swell or even burst; gives plant cells shape ...
Cells
... IX. Limits of Cell Size – “Why are all cells so small?” 1. Since cells are continuously in contact with their surroundings their parts cannot be to far from the membrane. 2. Cell volume increases faster than surface area. (i.e. ratio of surface area to volume limits how large a cell can get): a. Su ...
... IX. Limits of Cell Size – “Why are all cells so small?” 1. Since cells are continuously in contact with their surroundings their parts cannot be to far from the membrane. 2. Cell volume increases faster than surface area. (i.e. ratio of surface area to volume limits how large a cell can get): a. Su ...
10-1 2014 Why Cells Divide
... A.As a cell gets larger, it becomes more susceptible to attack. B.The cell has more trouble moving enough nutrients and wastes across the cell membrane. C.There isn’t enough room in the organism to accommodate larger cells. D.As a cell gets larger, its membrane gets weaker ...
... A.As a cell gets larger, it becomes more susceptible to attack. B.The cell has more trouble moving enough nutrients and wastes across the cell membrane. C.There isn’t enough room in the organism to accommodate larger cells. D.As a cell gets larger, its membrane gets weaker ...