Algae are photosynthetic protists [1].
... hydrolyze molecules extracellularly, absorbing these nutrients thereafter. Finally there are those protists, algae, which behave like plants in that they making their own organic molecules through photosynthesis. ...
... hydrolyze molecules extracellularly, absorbing these nutrients thereafter. Finally there are those protists, algae, which behave like plants in that they making their own organic molecules through photosynthesis. ...
Cell Organelles Picture and Key Function Verbs and Analogy Key
... o Changes light energy into stored energy (sugar) during photosynthesis. o Takes carbon dioxide and water and rearranges the atoms in them to make a new substance sugar. o While sugar is being made the energy from light is being put into the sugar molecule as the bonds are being made. o Oxygen is al ...
... o Changes light energy into stored energy (sugar) during photosynthesis. o Takes carbon dioxide and water and rearranges the atoms in them to make a new substance sugar. o While sugar is being made the energy from light is being put into the sugar molecule as the bonds are being made. o Oxygen is al ...
Zoology 106 course
... Organisms that obtain energy from light. Organisms that obtain energy from ...
... Organisms that obtain energy from light. Organisms that obtain energy from ...
File - MJHS White Team
... 1. specific functioning bacteria lived inside other independently functioning bacteria 2. over time, these “specialized” cells lost their independence and began working as a team leading to the formation of a nucleus and individual hereditary material ...
... 1. specific functioning bacteria lived inside other independently functioning bacteria 2. over time, these “specialized” cells lost their independence and began working as a team leading to the formation of a nucleus and individual hereditary material ...
Exam I Mock Exam
... c. mesh-like, skeleton of the nucleus that gives it structure d. the nuclear pores that allow things in and out e. C and D 29. What are cisternae? a. Flattened membrane sacs of the ER b. Part of the ribosomes where proteins are made c. membrane of vacuoles d. system of membranes within the chloropla ...
... c. mesh-like, skeleton of the nucleus that gives it structure d. the nuclear pores that allow things in and out e. C and D 29. What are cisternae? a. Flattened membrane sacs of the ER b. Part of the ribosomes where proteins are made c. membrane of vacuoles d. system of membranes within the chloropla ...
Document
... Prokaryotic cell structures: Plasma Membrane Movement across membranes: Passive Processes • Passive processes do not require energy (ATP)— involves movement down a concentration gradient • Simple diffusion: Movement of a solute from an area of high concentration to an area of low concentration • Fa ...
... Prokaryotic cell structures: Plasma Membrane Movement across membranes: Passive Processes • Passive processes do not require energy (ATP)— involves movement down a concentration gradient • Simple diffusion: Movement of a solute from an area of high concentration to an area of low concentration • Fa ...
CellTransport
... plasma membrane allows it to function as a regulatory structure and/or protective barrier for a cell. ...
... plasma membrane allows it to function as a regulatory structure and/or protective barrier for a cell. ...
Lectures 8 & 9: Powerpoint
... A. All cells (prokaryotes and eukaryotes) possess a plasma membrane, cytoplasm, genetic material and ribosomes 1. Plasma membrane has phospholipid ...
... A. All cells (prokaryotes and eukaryotes) possess a plasma membrane, cytoplasm, genetic material and ribosomes 1. Plasma membrane has phospholipid ...
Cells as Units of Life
... Animals utilize osmosis to control internal fluid and solute levels. The blood of marine fishes has 1/3 the salt content of the water. They are hypoosmotic to seawater. Freshwater fishes have blood that is saltier than the water. They are hyperosmotic to the water. If the solute concentratio ...
... Animals utilize osmosis to control internal fluid and solute levels. The blood of marine fishes has 1/3 the salt content of the water. They are hypoosmotic to seawater. Freshwater fishes have blood that is saltier than the water. They are hyperosmotic to the water. If the solute concentratio ...
7th-grade-science-notes-chap-2-lessons-123
... chemical reactions that occur in the mitochondria. This energy is stored in highenergy molecules called ATP (adenosine triphosphate). i. ATP is the fuel for cellular processes such as growth, cell division, and material transport. b. Chloroplasts – membrane-bound organelles that use light energy and ...
... chemical reactions that occur in the mitochondria. This energy is stored in highenergy molecules called ATP (adenosine triphosphate). i. ATP is the fuel for cellular processes such as growth, cell division, and material transport. b. Chloroplasts – membrane-bound organelles that use light energy and ...
Name
... need to include the proper organelles and other cell parts in each drawing. The drawing should be colored, neat, and the parts labeled properly. You will be comparing the cell to a school (just like we did with a city similes on our index cards.) Just as all of the organelles are found inside of a c ...
... need to include the proper organelles and other cell parts in each drawing. The drawing should be colored, neat, and the parts labeled properly. You will be comparing the cell to a school (just like we did with a city similes on our index cards.) Just as all of the organelles are found inside of a c ...
Chapter 4
... • Function: important for microtubule formation and assembly; important for movement of chromosomes to ends of cell during cell division (mitosis) and for vesicular transport, e.g. in neurons ...
... • Function: important for microtubule formation and assembly; important for movement of chromosomes to ends of cell during cell division (mitosis) and for vesicular transport, e.g. in neurons ...
AP Chapter 6 WS - TJ
... b. A small cell has a larger plasma membrane surface area than does a large cell, facilitating the exchange of sufficient materials with its environment. c. A small cell has a smaller cytoplasmic volume relative to its surface area, which helps to ensure the exchange of sufficient materials across i ...
... b. A small cell has a larger plasma membrane surface area than does a large cell, facilitating the exchange of sufficient materials with its environment. c. A small cell has a smaller cytoplasmic volume relative to its surface area, which helps to ensure the exchange of sufficient materials across i ...
Unit 2 _Cells_ Plan
... requirements to qualify as a living cell. Cellular organelles divide the cell’s labor of making proteins. Some items can move directly through the cell membrane, others require the help of proteins and/or energy. The structure of the cell membrane makes it selectively permeable. Organisms be ...
... requirements to qualify as a living cell. Cellular organelles divide the cell’s labor of making proteins. Some items can move directly through the cell membrane, others require the help of proteins and/or energy. The structure of the cell membrane makes it selectively permeable. Organisms be ...
Induction MSS Cell City Participant
... Below is a list of parts of a cell and their general functions. You are to determine a part of a city that would perform a similar function and add it to the chart. Then you are to draw your city in the general shape of a cell. {Note: students would not be given the clues / descriptions or a picture ...
... Below is a list of parts of a cell and their general functions. You are to determine a part of a city that would perform a similar function and add it to the chart. Then you are to draw your city in the general shape of a cell. {Note: students would not be given the clues / descriptions or a picture ...
CELLS: Structures and Functions
... • 2) The proteins are modified in the E.R. • 3) Vesicles (little sacs) carrying the proteins move from the E.R. to the Golgi apparatus, & fuse with it. • 4) The proteins are modified inside the Golgi. • 5) Vesicles carrying the proteins move from the Golgi to the cell membrane, and fuse with it. • 6 ...
... • 2) The proteins are modified in the E.R. • 3) Vesicles (little sacs) carrying the proteins move from the E.R. to the Golgi apparatus, & fuse with it. • 4) The proteins are modified inside the Golgi. • 5) Vesicles carrying the proteins move from the Golgi to the cell membrane, and fuse with it. • 6 ...
Cell Structure
... depending on the molecule: size, charge, etc. – One familiar semi-permeable membrane is the membrane of an egg – allows water to pass but not large protein or sugar molecules ...
... depending on the molecule: size, charge, etc. – One familiar semi-permeable membrane is the membrane of an egg – allows water to pass but not large protein or sugar molecules ...
Parts of The Eukaryotic Cell 1) Cell Membrane a) Selectively
... Parts of The Eukaryotic Cell 1) Cell Membrane a) Selectively permeable - allows some molecules into and out of the cell “Bouncer of the Cell” b) Fluid Mosaic Model of the Cell Membrane - membrane is continually changing 2) Organelles a) Cytoplasm - jelly-like substance within the cell membrane that ...
... Parts of The Eukaryotic Cell 1) Cell Membrane a) Selectively permeable - allows some molecules into and out of the cell “Bouncer of the Cell” b) Fluid Mosaic Model of the Cell Membrane - membrane is continually changing 2) Organelles a) Cytoplasm - jelly-like substance within the cell membrane that ...
Prokaryotes
... Prokaryotes are generally single celled organisms, although some occur as aggregates, colonies, or simple multi-cellular forms. The three most common prokaryotic shapes are spherical (cocci) , rod shaped (bacilli), and helical forms. Nearly all prokaryotes have external cell walls, which protect and ...
... Prokaryotes are generally single celled organisms, although some occur as aggregates, colonies, or simple multi-cellular forms. The three most common prokaryotic shapes are spherical (cocci) , rod shaped (bacilli), and helical forms. Nearly all prokaryotes have external cell walls, which protect and ...
Endoplasmic Reticulum
... • Golgi Body- transports chemical substances in and out of the cell. • Endoplasmic Reticulum- is the connecting link between the nucleus and cytoplasm of a plant cell • Vacuoles- help in regulating turgor pressure of the plant cell. • Peroxisomes- are cytoplasmic organelles of a plant cell. ...
... • Golgi Body- transports chemical substances in and out of the cell. • Endoplasmic Reticulum- is the connecting link between the nucleus and cytoplasm of a plant cell • Vacuoles- help in regulating turgor pressure of the plant cell. • Peroxisomes- are cytoplasmic organelles of a plant cell. ...
domain bacteria
... He compared rRNA sequences of diff organism – grouped to similarities (all organisms have ribosomes) The sequences changed little over time So rRNA is unique and useful for finding evolutionary relationships between earth’s organisms ...
... He compared rRNA sequences of diff organism – grouped to similarities (all organisms have ribosomes) The sequences changed little over time So rRNA is unique and useful for finding evolutionary relationships between earth’s organisms ...
Bacteria
... • The capsule is a major virulence factor in the major diseasecausing bacteria, such as Escherichia coli and Streptococcus pneumoniae. (Noncapsulated mutants of these organisms are avirulent, i.e. they don't cause disease). ...
... • The capsule is a major virulence factor in the major diseasecausing bacteria, such as Escherichia coli and Streptococcus pneumoniae. (Noncapsulated mutants of these organisms are avirulent, i.e. they don't cause disease). ...
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.