Cyanobacteria Eubacteria Live in: Get Energy by: Heterotrophic
... Eubacteria represents the majority of bacteria found on Earth, unlike Archaebacteria it can live in a variety of environments. Like all other bacteria they are classified as __________________ cells because they are small, simple and lack complex structures like a nucleus or organelles like a mitoch ...
... Eubacteria represents the majority of bacteria found on Earth, unlike Archaebacteria it can live in a variety of environments. Like all other bacteria they are classified as __________________ cells because they are small, simple and lack complex structures like a nucleus or organelles like a mitoch ...
Prokaryotic Cell Eukaryotic Cell
... composed of more than one cell) to survive. This genetic information is DNA! – Eukaryotes have separated this information from the rest of the cell with a special membrane bound organelle called a nucleus. (Eukaryote means “having a true nucleus”.) – Prokaryotes do NOT have this nucleus and their ge ...
... composed of more than one cell) to survive. This genetic information is DNA! – Eukaryotes have separated this information from the rest of the cell with a special membrane bound organelle called a nucleus. (Eukaryote means “having a true nucleus”.) – Prokaryotes do NOT have this nucleus and their ge ...
Cell Structure Get ready for a little friendly competition….
... ● Cells that have a high energy requirement, such as muscle cells, may have thousands of mitochondria. ● Outer membrane is smooth ● Inner membrane is folded = MAX SURFACE AREA ...
... ● Cells that have a high energy requirement, such as muscle cells, may have thousands of mitochondria. ● Outer membrane is smooth ● Inner membrane is folded = MAX SURFACE AREA ...
The Cell Theory consists of three main points: What is Biology?
... What is Biology? ______________________________________________________________ Inside a Cell An ______________________ is a cell ___________________ in which functions are ...
... What is Biology? ______________________________________________________________ Inside a Cell An ______________________ is a cell ___________________ in which functions are ...
Name
... Cell wall – a rigid (stiff) structure on the outside of some cells that supports and protects the cell ...
... Cell wall – a rigid (stiff) structure on the outside of some cells that supports and protects the cell ...
File
... 4. The Chromosomes are the condensed genetic material (DNA) found within a cell. 5. The mitochondria are the powerhouses of the cell. Mitochondria are the organelles where cellular energy is produced, providing the energy needed to power chemical reactions. This process, known as cellular respiratio ...
... 4. The Chromosomes are the condensed genetic material (DNA) found within a cell. 5. The mitochondria are the powerhouses of the cell. Mitochondria are the organelles where cellular energy is produced, providing the energy needed to power chemical reactions. This process, known as cellular respiratio ...
Plant vs Animal Cell Activity
... Standard B-2: The student will demonstrate an understanding of the structure and function of cells and their organelles. Indicator B2.2: Summarize the structures and functions of organelles found in a eukaryotic cell (including the nucleus, mitochondria, chloroplasts, lysosomes, vacuoles, ribosomes, ...
... Standard B-2: The student will demonstrate an understanding of the structure and function of cells and their organelles. Indicator B2.2: Summarize the structures and functions of organelles found in a eukaryotic cell (including the nucleus, mitochondria, chloroplasts, lysosomes, vacuoles, ribosomes, ...
12812 Describe eukaryotic cell structure and function
... before they can report credits from assessment against unit standards or deliver courses of study leading to that assessment. Industry Training Organisations must be granted consent to assess against standards by NZQA before they can register credits from assessment against unit standards. Providers ...
... before they can report credits from assessment against unit standards or deliver courses of study leading to that assessment. Industry Training Organisations must be granted consent to assess against standards by NZQA before they can register credits from assessment against unit standards. Providers ...
7th Grade Geography Assessment Task 1
... centriole, golgi apparatus, cytoskeleton, & lysosome. The plant cell must include: lysosome, mitochondrion, cytoplasm, endoplasmic reticulum (smooth & rough) chloroplast (grana, stroma, thylakoid), free ribosomes, ribosomes, golgi apparatus, cytoskeleton, cell wall plasma membrane, vacuole with cell ...
... centriole, golgi apparatus, cytoskeleton, & lysosome. The plant cell must include: lysosome, mitochondrion, cytoplasm, endoplasmic reticulum (smooth & rough) chloroplast (grana, stroma, thylakoid), free ribosomes, ribosomes, golgi apparatus, cytoskeleton, cell wall plasma membrane, vacuole with cell ...
Plant Cells
... Centrosomes and Centrioles • In many cells, microtubules grow out from a centrosome near the nucleus • The centrosome is a “microtubule-organizing center” • In animal cells, the centrosome has a pair of centrioles, each with nine triplets of microtubules arranged in a ring ...
... Centrosomes and Centrioles • In many cells, microtubules grow out from a centrosome near the nucleus • The centrosome is a “microtubule-organizing center” • In animal cells, the centrosome has a pair of centrioles, each with nine triplets of microtubules arranged in a ring ...
The Cell
... Another word for prokaryotes is (6.) bacteria. Eukaryotic cells make up plants, animals, fungi, and (7.) protists. These organisms are called (8.) eukaryotes. Almost all eukaryotic cells have genetic material that is contained in a nucleus. Another characteristic of eukaryotic cells is other (9.) me ...
... Another word for prokaryotes is (6.) bacteria. Eukaryotic cells make up plants, animals, fungi, and (7.) protists. These organisms are called (8.) eukaryotes. Almost all eukaryotic cells have genetic material that is contained in a nucleus. Another characteristic of eukaryotic cells is other (9.) me ...
G:\CLASSES\BI 345n6\BI345n6_F10\tests\midterm1_F10.wpd
... allowed us to overcome? (B) Briefly describe the utility of DNA:DNA hybridization and FAME analysis, i.e., what are the positive aspects of each of these methods? (C) Now briefly describe why ribosomal RNAs are also so useful and what are some of the positive aspects that they have to offer. Also ca ...
... allowed us to overcome? (B) Briefly describe the utility of DNA:DNA hybridization and FAME analysis, i.e., what are the positive aspects of each of these methods? (C) Now briefly describe why ribosomal RNAs are also so useful and what are some of the positive aspects that they have to offer. Also ca ...
Chapter 5 – Inside The Cell
... a. What is the difference between Eukaryotes and Prokaryotes. b. In what type of cell would you find Plastids, Vacuoles and what’s their function. c. In what type of cells would you find Cilia and Flagella and what’s their function. ...
... a. What is the difference between Eukaryotes and Prokaryotes. b. In what type of cell would you find Plastids, Vacuoles and what’s their function. c. In what type of cells would you find Cilia and Flagella and what’s their function. ...
77KB - NZQA
... before they can report credits from assessment against unit standards or deliver courses of study leading to that assessment. Industry Training Organisations must be granted consent to assess against standards by NZQA before they can register credits from assessment against unit standards. Providers ...
... before they can report credits from assessment against unit standards or deliver courses of study leading to that assessment. Industry Training Organisations must be granted consent to assess against standards by NZQA before they can register credits from assessment against unit standards. Providers ...
discov5_lecppt_Ch06
... • Many protists and animals have cells covered in hairlike projections called cilia • Cilia can be moved back and forth to move a whole cell through liquid • Motor proteins interlinking the microtubules use ATP to cause the cilia to bend, causing the cell to move ...
... • Many protists and animals have cells covered in hairlike projections called cilia • Cilia can be moved back and forth to move a whole cell through liquid • Motor proteins interlinking the microtubules use ATP to cause the cilia to bend, causing the cell to move ...
The Prokaryotic Cell
... The ribosomes found in prokaryotic cells are smaller than those of eukaryotes and are involved in protein synthesis. The rate at which bacteria divide requires a high level of protein synthesis and thus many ribosomes are needed. Thus ribosomes may constitute as much as 40% of the cell mass. Prokary ...
... The ribosomes found in prokaryotic cells are smaller than those of eukaryotes and are involved in protein synthesis. The rate at which bacteria divide requires a high level of protein synthesis and thus many ribosomes are needed. Thus ribosomes may constitute as much as 40% of the cell mass. Prokary ...
Cell Notes
... eukaryote—literally, true nucleus—its name. Eukaryotic organisms also have other specialized structures, called organelles, which are small structures within cells that perform dedicated functions. As the name implies, you can think of organelles as small organs. There are a dozen different types of ...
... eukaryote—literally, true nucleus—its name. Eukaryotic organisms also have other specialized structures, called organelles, which are small structures within cells that perform dedicated functions. As the name implies, you can think of organelles as small organs. There are a dozen different types of ...
The Prokaryotic Cell - Blue Coat Church of England School
... The ribosomes found in prokaryotic cells are smaller than those of eukaryotes and are involved in protein synthesis. The rate at which bacteria divide requires a high level of protein synthesis and thus many ribosomes are needed. Thus ribosomes may constitute as much as 40% of the cell mass. Prokary ...
... The ribosomes found in prokaryotic cells are smaller than those of eukaryotes and are involved in protein synthesis. The rate at which bacteria divide requires a high level of protein synthesis and thus many ribosomes are needed. Thus ribosomes may constitute as much as 40% of the cell mass. Prokary ...
Functional Anatomy of Prokaryotic and Eukaryotic Cells
... Parts of a prokaryotic flagellum (Fig 4.8) i. filament - whiplike extension that rotates - helical in shape – 15 to 20 µm long composed of flagellin – highly conserved in bacteria ii. ...
... Parts of a prokaryotic flagellum (Fig 4.8) i. filament - whiplike extension that rotates - helical in shape – 15 to 20 µm long composed of flagellin – highly conserved in bacteria ii. ...
Genus species
... Methanogens, thermoacidophiles, halophiles Reproduction: binary fission(asexual), conjugation(sexual) Eubacteria ...
... Methanogens, thermoacidophiles, halophiles Reproduction: binary fission(asexual), conjugation(sexual) Eubacteria ...
AP Biology Reading Guide Chapter 6
... 4. In cell fractionation, whole cells are broken up in a blender, and this slurry is centrifuged several times. Each time, smaller and smaller cell parts are isolated. This will isolate different organelles and allow study of their biochemical activities. Which organelles are the smallest ones isola ...
... 4. In cell fractionation, whole cells are broken up in a blender, and this slurry is centrifuged several times. Each time, smaller and smaller cell parts are isolated. This will isolate different organelles and allow study of their biochemical activities. Which organelles are the smallest ones isola ...
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.