WHAT DO WE NEED TO KNOW ABOUT THE CELL : Topics covered
... c. Differentiate between magnification and resolution and why both are important d. Tools (light microscope, scanning electron microscope, transmission electron microscope e. Know how to compare cell sizes (convert nm to micrometers and vice versa) ...
... c. Differentiate between magnification and resolution and why both are important d. Tools (light microscope, scanning electron microscope, transmission electron microscope e. Know how to compare cell sizes (convert nm to micrometers and vice versa) ...
Cell organelles
... Labels them, which allows Them to go to their correct Destination. Modified protein transported in vesicles ...
... Labels them, which allows Them to go to their correct Destination. Modified protein transported in vesicles ...
VII
... 16. How is the make-up of a eukaryotic cell different from the make-up of a prokaryotic cell? 17. How would life on Earth have been different if eukaryotic cells had not been present? Biology - Section 7.2 Study Questions 1. What does the plasma membrane do? 2. What is homeostasis? 3. Why is homeost ...
... 16. How is the make-up of a eukaryotic cell different from the make-up of a prokaryotic cell? 17. How would life on Earth have been different if eukaryotic cells had not been present? Biology - Section 7.2 Study Questions 1. What does the plasma membrane do? 2. What is homeostasis? 3. Why is homeost ...
APPLIED BIOLOGY MID-TERM STUDY GUIDE
... HISTORY OF CELL Cell theory Scientists that contributed to the cell theory Prokaryotic cell Eukaryotic cell Cell membrane composition (bilayer of phospholipids) Function of cell membrane Types of microscope (electron and compound) Surface area to volume ratio Three parts of cytoske ...
... HISTORY OF CELL Cell theory Scientists that contributed to the cell theory Prokaryotic cell Eukaryotic cell Cell membrane composition (bilayer of phospholipids) Function of cell membrane Types of microscope (electron and compound) Surface area to volume ratio Three parts of cytoske ...
Cell Unit Review Worksheet | Part I
... ribosomes, which exit through pores. The ribosomes then travel to the ______________________________. This is where ribosomes link _____________________________ to make protein. The protein then travels to the ...
... ribosomes, which exit through pores. The ribosomes then travel to the ______________________________. This is where ribosomes link _____________________________ to make protein. The protein then travels to the ...
General Characteristics of the Six Kingdoms
... Can be aerobic (require oxygen) or anaerobic (don’t need oxygen) and are unicellular Can be identified by Gram staining (gram positive or gram negative) ...
... Can be aerobic (require oxygen) or anaerobic (don’t need oxygen) and are unicellular Can be identified by Gram staining (gram positive or gram negative) ...
notes
... • Change energy from food into ATP (energy for your cell) • More mitochondria a cell has, the more energy it uses • Has a 2-layer membrane • Has folds inside of it called cristae ...
... • Change energy from food into ATP (energy for your cell) • More mitochondria a cell has, the more energy it uses • Has a 2-layer membrane • Has folds inside of it called cristae ...
Cell
... Intermediate Filaments: super coiled fibrous proteins; small diameter; cell shape; anchors nucleus; example (Keratin). ...
... Intermediate Filaments: super coiled fibrous proteins; small diameter; cell shape; anchors nucleus; example (Keratin). ...
Blank flipbook
... Membranes are ________________________________________ (=Semi-permeable) Allow certain molecules to pass through; but keep others out _________________ what enters and leaves cell Helps with ____________________________ ___________________= gel-like material + organelles between nucleus and cell mem ...
... Membranes are ________________________________________ (=Semi-permeable) Allow certain molecules to pass through; but keep others out _________________ what enters and leaves cell Helps with ____________________________ ___________________= gel-like material + organelles between nucleus and cell mem ...
Biology
... e. define and properly use all vocabulary f. properly apply all terms and concepts in describing/explaining real world examples g. make and interpret scientific graphs and diagrams h. teach someone else the concepts discussed i. practice proper laboratory safety This will be accomplished by each stu ...
... e. define and properly use all vocabulary f. properly apply all terms and concepts in describing/explaining real world examples g. make and interpret scientific graphs and diagrams h. teach someone else the concepts discussed i. practice proper laboratory safety This will be accomplished by each stu ...
Cells Definitions Chapter 7
... 7. Cell Theory – A theory created by Schleiden and Schwaan which is as follows: 1. All organisms are composed of one or more cells. 2. The cell is the basic unit of structure and organization of organisms. 3. All cells come from pre-existing cells 8. Electron Microscope – A microscope that uses a be ...
... 7. Cell Theory – A theory created by Schleiden and Schwaan which is as follows: 1. All organisms are composed of one or more cells. 2. The cell is the basic unit of structure and organization of organisms. 3. All cells come from pre-existing cells 8. Electron Microscope – A microscope that uses a be ...
Cell membrane
... • Both help cells move (which, btw, most cells don’t) • Found on cell surface, but usually one or the other, not both. • Cilia – Short hair-like structures – Usually many of them ...
... • Both help cells move (which, btw, most cells don’t) • Found on cell surface, but usually one or the other, not both. • Cilia – Short hair-like structures – Usually many of them ...
Chapter 7 1. ______ is a selectively permeable
... 11. When a cell with a cell wall gains water, it is considered ______________ which is normal since the cell is made to withstand pressure. When that same cell loses water, it undergoes __________________. 12. Active transport requires ______________ to keep concentration gradient. For example, the ...
... 11. When a cell with a cell wall gains water, it is considered ______________ which is normal since the cell is made to withstand pressure. When that same cell loses water, it undergoes __________________. 12. Active transport requires ______________ to keep concentration gradient. For example, the ...
Cell Transport Mechanisms
... 4. Equilibrium – diffusion of a substance until the concentration is the same throughout a given space. Ex. a drop of food coloring will make a glass of water the same color throughout. 5. Osmosis - the movement of water across a membrane from where there is more to where there is less. Ex. vegetabl ...
... 4. Equilibrium – diffusion of a substance until the concentration is the same throughout a given space. Ex. a drop of food coloring will make a glass of water the same color throughout. 5. Osmosis - the movement of water across a membrane from where there is more to where there is less. Ex. vegetabl ...
chapter 7 a view of the cell
... that aid in locomotion and feeding. – Composed of pairs of microtubules, with a central pair surrounded by 9 additional pairs. – Cilia are short, numerous, hairlike projections that move in a wavelike motion – Flagella are longer projections, move in a whip-like motion. ...
... that aid in locomotion and feeding. – Composed of pairs of microtubules, with a central pair surrounded by 9 additional pairs. – Cilia are short, numerous, hairlike projections that move in a wavelike motion – Flagella are longer projections, move in a whip-like motion. ...
Fri. 9/19 and Wed. 9/24 Organelles
... proteins made in the ER so they can be put into packages and exported from the cell ...
... proteins made in the ER so they can be put into packages and exported from the cell ...
Biology Name: Block: ____ Learning Targets: Membrane
... Given a molecule (Na+, Cl-, glucose, amino acids, water, proteins, starch, O2, CO2) I can predict the method of transport used across the membrane (osmosis, diffusion, facilitated diffusion, active transport, endocytosis, exocytosis) I can predict the amount of solutes found in each solution once eq ...
... Given a molecule (Na+, Cl-, glucose, amino acids, water, proteins, starch, O2, CO2) I can predict the method of transport used across the membrane (osmosis, diffusion, facilitated diffusion, active transport, endocytosis, exocytosis) I can predict the amount of solutes found in each solution once eq ...
A View of a Cell
... Outer membrane and highly folded inner membrane to allow for a large surface area in a small space ...
... Outer membrane and highly folded inner membrane to allow for a large surface area in a small space ...
Cell Organelles
... • contains DNA, in the form of long strands called chromatin. (chromatin coils to form chromosomes) • DNA genetic information - and direction for making proteins • site of ribosome synthesis ...
... • contains DNA, in the form of long strands called chromatin. (chromatin coils to form chromosomes) • DNA genetic information - and direction for making proteins • site of ribosome synthesis ...
Cell Organelles
... • contains DNA, in the form of long strands called chromatin. (chromatin coils to form chromosomes) • DNA genetic information - and direction for making proteins • site of ribosome synthesis ...
... • contains DNA, in the form of long strands called chromatin. (chromatin coils to form chromosomes) • DNA genetic information - and direction for making proteins • site of ribosome synthesis ...
Organelles Day 3
... purpose that allows the cell to function. To be inducted into the biology club, you need to know all the organelles. ...
... purpose that allows the cell to function. To be inducted into the biology club, you need to know all the organelles. ...
Flagellum
A flagellum (/fləˈdʒɛləm/; plural: flagella) is a lash-like appendage that protrudes from the cell body of certain prokaryotic and eukaryotic cells. The word flagellum in Latin means whip. The primary role of the flagellum is locomotion but it also often has function as a sensory organelle, being sensitive to chemicals and temperatures outside the cell. Flagella are organelles defined by function rather than structure. There are large differences between different types of flagella; the prokaryotic and eukaryotic flagella differ greatly in protein composition, structure, and mechanism of propulsion. However, both are used for swimming.An example of a flagellate bacterium is the ulcer-causing Helicobacter pylori, which uses multiple flagella to propel itself through the mucus lining to reach the stomach epithelium. An example of a eukaryotic flagellate cell is the mammalian sperm cell, which uses its flagellum to propel itself through the female reproductive tract. Eukaryotic flagella are structurally identical to eukaryotic cilia, although distinctions are sometimes made according to function and/or length.