Bio Ch 4

Question 0

Cell Theory

Answer 0

(1) All organisms are composed of cells (2) cells are the basic units of structure and function in organisms, & (3) cells come only from preexisting cells because cells are self-reproducing

Question 1

Cell

Answer 1

smallest unit of living matter

Question 2

Surface-area-to-volume ratio

Answer 2

ratio of a cell’s outside area to its internal volume; the relationship limits the maximum size of a cell

Question 3

Compound light microscope

Answer 3

uses a set of glass lenses to focus light rays passing through a specimen to produce an image that is viewed by the human eye

Question 4

Transmission Electron Microscope (TEM)

Answer 4

uses a set of electromagnetic lenses to focus electrons passing through a specimen to produce an image that is projected onto a fluorescent screen or photographic film

Question 5

Scanning Electron Microscope (SEM)

Answer 5

uses a narrow beam of electrons to scan over the surface of a specimen that is coated with a thin metal layer; secondary electrons given off by the metal are detected and used to produce a 3D image on a tv screen

Question 6

Magnification

Answer 6

ratio between the size of an image and its actual size

Question 7

Resolution

Answer 7

minimum distance between 2 objects that allows them to be seen as separate objects

Question 8

Contrast

Answer 8

difference in the shading of an object compared to its background

Question 9

Confocal microscopy

Answer 9

uses a laser beam scanned across the specimen to focus on a single shallow plane within the cell

Question 10

Video-enhanced contrast microscopy

Answer 10

computer makes the darkest areas of the original image much darker and the lightest areas of the original much lighter

Question 11

Prokaryotic cells

Answer 11

cells which lack a membrane-enclosed nucleus

Question 12

Eukaryotic cells

Answer 12

cell with a nucleus

Question 13

Archaeans

Answer 13

cells possessing qualities of both prokaryotes and eukaryotes

Question 14

Bacillus

Answer 14

a rod-shaped bacterium

Question 15

Coccus

Answer 15

a spherical-shaped bacterium

Question 16

Spirillum (plural, spirilla)

Answer 16

long, rod-shaped bacterium that is twisted into a rigid spiral

Question 17

Spirochete

Answer 17

Long, rod-shaped bacterium that is twisted into a flexible spiral

Question 18

Cell envelope

Answer 18

in bacteria, includes the plasma membrane, the cell wall, and the glycocalyx

Question 19

Plasma membrane

Answer 19

phospholipid bilayer with embedded proteins; regulates the entrance and exit of substances into and out of the cytoplasm

Question 20

Mesosomes

Answer 20

internal pouches of the plasma membrane in prokaryotes

Question 21

Cell wall

Answer 21

when present, maintains the shape of the cell, even if the cytoplasm should happen to take up an abundance of water

Question 22

Glycocalyx

Answer 22

layer of polysaccharides that lies outside the cell wall in some bacteria; aids against drying out and helps bacteria resist a host’s immune system; also helps bacteria attach to almost any surface

Question 23

Capsule

Answer 23

well-organized layer of polysaccharides that lies outside the cell wall in some bacteria

Question 24

Cytoplasm

Answer 24

semifluid solution composed of water and inorganic and organic molecules encased by a plasma membrane

Question 25

Nucleoid

Answer 25

region of prokaryotic cells where DNA is located; it is not bounded by a nuclear envelope

Question 26

Plasmids

Answer 26

many bacteria have these extrachromosomal pieces of circular DNA; routinely used in biotechnology labs as a molecular vehicle to transport DNA from different organisms, including humans, into a bacterium

Question 27

Vector

Answer 27

in genetic engineering, a means to transfer foreign genetic material into a cell (a plasmid)

Question 28

Ribosomes

Answer 28

tiny structures that = site of protein synthesis in a cell; composed of proteins and ribosomal RNA (rRNA)

Question 29

Cyanobacteria

Answer 29

bacteria that are capable of photosynthesis in the same manner as plants

Question 30

Flagella

Answer 30

appendages on motile bacteria the propel themselves in water

Question 31

Thylakoids (Cyanobacteria)

Answer 31

extensive internal membranes of cyanobacteria where chlorophyll and other pigments absorb solar energy for the production of carbohydrates

Question 32

Fimbriae

Answer 32

small, bristle-like fibers that sprout from the cell surface

Question 33

Conjugation pili

Answer 33

rigid tubular structures use by bacteria to pass DNA from cell to cell

Question 34

Endosymbiotic Theory

Answer 34

explanation of the evolution of eukaryotic organelles by phagocytosis of prokaryotes

Question 35

Organelles

Answer 35

compartments of eukaryotic cells; carry out specialized functions that together allow the cell to be more efficient and successful

Question 36

Vesicles

Answer 36

membranous sacs that enclose molecules made by enzymes in the organelles’ membranes and keep them separate from the cytoplasm

Question 37

Cytoskeleton

Answer 37

vesicles move around by means of this extensive network or lattice of protein fibers; maintains cell shape and assists with cell movement

Question 38

Chromatin

Answer 38

network of DNA strands and associated proteins observed within the nucleus of a cell

Question 39

Nucleoplasm

Answer 39

semifluid medium of the nucleus containing chromatin

Question 40

Chromosomes

Answer 40

structure that transmits the genetic material from one generation to the next; composed of condensed chromatin; each species has a particular number of these that are passed on to the next generation

Question 41

Genes

Answer 41

composed of DNA; = units of heredity located on the chromosomes

Question 42

3 types of RNA produced in the nucleus

Answer 42

ribosomal RNA (rRNA), messenger RNA (mRNA), & transfer RNA (tRNA); rRNA produced in nucleolus; ribosomes = small bodies in cytoplasm that facilitate protein synthesis; mRNA (mobile molecule) acts as an intermediary for DNA (a sedentary molecule which specifies the sequence of amino acids in a protein); tRNA participates in the assembly of amino acids into a polypeptide by recognizing both mRNA and amino acids during protein synthesis

Question 43

Nucleolus

Answer 43

dark region of chromatin where rRNA joins with proteins to form the subunits of ribosomes

Question 44

Nuclear envelope

Answer 44

physically separates the cytoplasm from the nucleus by a double membrane

Question 45

Nuclear pores

Answer 45

of sufficient size (100 nm) to permit the passage of ribosomal subunits and mRNA out of the nucleus into the cytoplasm, and the passage of proteins from the cytoplasm into the nucleus

Question 46

Polyribosomes

Answer 46

string of ribosomes simultaneously translating regions of the same mRNA strand during protein synthesis

Question 47

Signal peptide

Answer 47

sequence of amino acids that binds with a signal recognition particle (SRP) causing a ribosome to bind to the endoplasmic reticulum (ER)

Question 48

Central dogma of molecular biology

Answer 48

DNA-mRNA-protein sequence of events

Question 49

Endomembrane system

Answer 49

nuclear envelope, the membranes of the endoplasmic reticulum, the Golgi apparatus, and several types of vesicles

Question 50

Endoplasmic reticulum (ER)

Answer 50

complicated system of membranous channels and saccules (flattened vesicles); physically continuous with the nuclear envelope; consists of rough ER and smooth ER

Question 51

Rough ER

Answer 51

studded with ribosomes on the side of the membrane that faces the cytoplasm, giving it the capacity to produce proteins

Question 52

Smooth ER

Answer 52

continuous with the nuclear envelope and the rough ER; does not have attached ribosomes

Question 53

Golgi apparatus

Answer 53

stack of 3-20 slightly curved, flattened saccules whose appearance can be compared to a stack of pancakes; contains enzymes that modify the carbohydrate chains first attached to proteins in the rough ER; it can change or modify one sugar into another sugar on glucoproteins

Question 54

Secretion

Answer 54

release of a substance from a cell by exocytosis

Question 55

Lysosomes

Answer 55

membrane-bound vesicles produced by the Golgi apparatus

Question 56

Peroxisomes

Answer 56

membrane-bound vesicles that enclose enzymes which are synthesized by free ribosomes and transported into one of these from the cytoplasm

Question 57

Vacuoles

Answer 57

membranous sacs; larger than vesicles; usually store substances

Question 58

Central vacuole

Answer 58

takes up to 90% of volume of plant cells; filled with a watery fluid called cell sap that gives added support to the cell; maintains hydrostatic pressure or turgor pressure in plant cells, which provides structural support

Question 59

Chloroplasts

Answer 59

use solar energy to synthesize carbohydrates, which serve as organic nutrient molecules for plants and all living things on Earth

Question 60

Mitochondria

Answer 60

break down carbohydrate-derived products to produce ATP

Question 61

Photosynthesis equation

Answer 61

solar energy + carbon dioxide + water –> carbohydrate + oxygen

Question 62

Cellular respiration equation

Answer 62

carbohydrate + oxygen –> carbon dioxide + water + energy

Question 63

Stroma

Answer 63

region within a chloroplast that surrounds the grana; contains enzymes involved in the synthesis of carbohydrates during the Calvin cycle of photosynthesis

Question 64

Granum

Answer 64

stack of thylakoids

Question 65

Thylakoids (Plants)

Answer 65

flattened sac within a granum of a chloroplast; membrane contains chlorophyll; location where the light reactions of photosynthesis occur

Question 66

Plastids

Answer 66

plant organelles that are surrounded by a double membrane and have varied functions

Question 67

Chromoplasts

Answer 67

contain pigments that result in a yellow, orange, or red color

Question 68

Leucoplasts

Answer 68

generally colorless plastids that synthesize and store starches and oils

Question 69

Cristae

Answer 69

increase the surface area of the inner membrane of mitochondria

Question 70

Matrix

Answer 70

inner membrane encloses this semifluid structure in mitochondria; contains mitochondrial DNA and ribosomes

Question 71

Actin filaments (formerly microfilaments)

Answer 71

long, extremely thin, flexible fibers that occur in bundles or meshlike networks; 7 nm diameter; each filament contains 2 chains of globular actin monomers twisted about 1 another in a helical manner; provide structural support, facilitate cellular movement; in plant cells, form the tracks along which chloroplasts circulate; associated with myosin

Question 72

Motor molecules

Answer 72

proteins that can attach, detach, and reattach farther along an actin filament; uses ATP to pull actin filaments along

Question 73

Intermediate filaments

Answer 73

in between the size of actin filaments and microtubules (8-11 nm in diameter); ropelike assembly of fibrous polypeptides, but filament type varies according to the tissue; some support the nuclear envelope, others support the plasma membrane and take part in the formation of cell-to-cell junctions

Question 74

Microtubules

Answer 74

small, hollow cylinders (25 nm diameter) made of globular protein called tubulin (alpha & beta); 13 rows of tubulin dimers; assembly under regulatory control of a ____ organizing center; motor molecules kinesin and dynein are associated with these

Question 75

Centrosome

Answer 75

in most eukaryotic cells, the main MTOC (microtubule organizing center); lies near the nucleus; microtubules radiate from this, helping to maintain the shape of the cell and acting as tracks along which organelles can be moved

Question 76

Centrioles

Answer 76

short cylinders with a 9+0 pattern of microtubule triplets (9 sets of triplets in an outer ring, the center does not contain a microtubule)

Question 77

Basal body

Answer 77

organelle that lies at the base of cilia and flagella and may direct the organization of microtubules within these structures; centrioles believed to give rise to these in cells with cilia and flagella

Question 78

Cilia & flagella

Answer 78

hairlike projections that can move either in an undulating fashion, like a whip, or stiffly like an oar