biology exam 2
Meristems
Plant tissue that remains embryonic as long as the plant lives, allowing for full growth of a plant.
meristem
Plant tissue that remains embryonic as long as the plant lives, allowing for indeterminate growth.
allow molecules to move through the membrane.
channel proteins
plasmodesma
channels within plant cell wells that contain cytoplasmic strands and allow adjacent cells to directly exchange some materials
what are in plant cells but not animal cells?
chloroplasts, central vacuole, cell wall
stiffens and strengthens the plasma membrane and help regulate its fluidity
cholesterol
cellular shapes are associated with epithelial tissues
columnar, cuboidal, squamous
gradual increase or decrease in concentration from one point to another
concentration gradient
dense fibrous connective tissue
connective tissue that has more collagen fibers than adipose or loose fibrous connective tissue
dorsal cavity
contains the brain and spinal cord; vertebral cavity, cranial cavity
example of hypotonic solution
distilled water
tissues that consist of tightly packed cells that form a continuous layer
epithelial tissues
Parenchyma
essential, distinguishing tissue of any organ or system; found in ground tissue
cohesion-tension model
explains how water travels up the xylem to leaves
network of roots found in many monocots
fibrous root system
long, thin appendages that rotate like propellers, allowing the bacterial cell to move in fluid
flagella
pinocytosis
form of endocytosis in which a vesicle forms around a liquid or very small particles and draws it into the cell
Sclerenchyma
ground-tissue with thick cells walls which function to provide support for plants.
solution that has a greater solute concentration compared to that of the cytoplasm of a cell
hypertonic solution
solution that has a lower solute concentration when compared to another solution
hypotonic
components of plasma
inorganic substances, water, organic substances
type of membrane protein that binds a specific molecule, bringing about a change in shape of the protein, which causes a cellular response (ex: insulin)
receptor protein
Example of isotonic solution
red blood cells and plasma
what cell structure is assembled in the nucleolus of the nucleus, organelle that functions in protein synthesis
ribosome
Protein synthesis can occur at ribosomes attached to the
rough endoplasmic reticulum
example of hypertonic
salt water
cytoplasm
semifluid medium within a cell
Which muscle tissues are striated?
skeletal and cardiac
integumentary system
skin, hair, nails
stomata
small opening between two guard cells on plant leaves; allow gas exchange and water loss to occur when they are open
which types of molecules are more likely to be able to diffuse across a plasma membrane
small, nonpolar, uncharged
fluid-filled space inside a chloroplast
stroma
large membranous sac found in cells
vacule
Phloem
vascular tissue in plants that transports glucose
Xylem
vascular tissue in plants that transports water and nutrients
cuticle
waxy coat on the outer layer of epidermis of the body of a non-woody plant, which protects it from water loss and pathogenic organisms
palmate
webbed
Hypertonic
when comparing two solutions, the solution with the greater concentration of solutes
isotonic
when the concentration of two solutions is the same
most rigid type of connective tissue
bone
selectively transport molecules through the membrane
carrier proteins
enzyme that degrades hydrogen peroxide
catalase
One micrometers (μm) is equal to how many nanometers (nm)
1,000
epidermis of a plant
A single layer of cells that forms the outer layer.
isotonic solution
A solution in which the concentration of solutes is essentially equal to that of the cell which resides in the solution
prop roots
Adventitious roots that support the plant by anchoring above the soil line
Smooth Endoplasmic Reticulum
An endomembrane system where lipids are synthesized, calcium levels are regulated, and toxic substances are broken down.
Centrioles
Cell organelle that aids in cell division in ANIMAL cells ONLY; function in the process of microtubule assembly and disassembly
Chromatin
Clusters of DNA, RNA, and proteins in the nucleus of a cell
osteons
Cylindrical structures that comprise compact bone
What type of cells have membrane-bound organelles
Eukaryotic
Transpiration
Evaporation of water from the leaves of a plant
reticular fibers
Fibers made of collagen fibers that are very thin and branched. Forma tightly woven fabric that joins connective tissue to adjacent tissues.
Hypotonic
Having a lower concentration of solute than another solution
Primary growth in stems
Increase in length; occurs in apical mersitems in roots and shoot
phloem
Living vascular tissue that carries sugar and organic substances throughout a plant
pleura
Membrane surrounding the lungs
structures that are found in animal cells
Plasma membrane Nucleoli Centrioles Mitochondria
secondary growth in stems
Secondary growth: produced by lateral meristems, thickening the roots and shoots of woody plants. (Vascular cambium triggers this)
mesophyll
Spongy tissue in the interior of the leaf where most chloroplasts are found.
Rough Endoplasmic Reticulum
System of internal membranes within the cytoplasm. contains ribosomes. functions in the transport of substances such as proteins
synovial membrane
The lining of a joint that secretes synovial fluid into the joint space; composed only of loose connective tissue
adipose tissue
Tissue that stores fat.
what protein forms microtubules in the cell
Tubulin
why a hypotonic solution causes a cell to swell
Water rushes into the cell
Mycorrhizae
a structure being of a mutualistic association of plant roots and fungus
serous membrane
a thin membrane lining the closed cavities of the body; thoracic and abdominal cavities
exocytosis
a vesicle containing macromolecules fuses with plasma membrane
the movement of ions or molecules across a cell membrane into a region of higher concentration, assisted by enzymes and requiring cellular energy.
active transport
meristematic tissue
all tissue types in a plant arise from...
suberin
an inert impermeable waxy substance present in the cell walls of corky tissues.
Monocots
angiosperms that have only one seed leaf or "cotyledon"
Eudicots
angiosperms with two embryonic cotyledons
which contain cells that lack a membrane-bound nucleus
archaea, bacteria
lenticel
areas where the layer of cork cells is thin and loosely packed
Where is peptidoglycan found?
bacterial cell walls
phospholipids are arranged in a
bilayer
Epidermal tissue
type of tissue that is associated with the outer covering of a plant
solution that has the same solute concentration as another solution
isotonic
ligaments
joints that connect bone to bone
nuclear envelope
layer of two membranes that surrounds the nucleus of a cell
pinnate
leaf with one main vein
smooth ER synthesizes/produces
lipids and carbohydrates
ventral cavity
located along the front of the body, contains the body organs that sustain homeostasis; pelvic cavity, abdominal cavity, thoracic cavity
loose fibrous connective tissue would be found in
lungs, bladder
organelle is formed by the Golgi apparatus; function in intracellular digestion; contains hydrolytic digestive enzymes; aid in breaking down the macromolecule
lysosome
inner fluid-filled space of a mitochondrion is called the
matrix
enzymatic proteins
membrane proteins that catalyze chemical reactions near the plasma membrane
peritoneum
membrane that lines the abdominal cavity
pericardium
membranous sac enclosing the heart
Centrioles are formed from
microtubules
two eukaryotic organelles function to convert energy into a form that cells can use
mitochondria and chloroplast
pressure-flow model
model for predicting how sugars are transported from photosynthetic tissue to the rest of a plant; transportation of phloem
ATP
molecule produced by cellular respiration that is used to fuel energy-requiring cellular reactions
endomembrane system
nuclear envelope and endoplasmic reticulum
Components of the endomembrane system
nuclear envelope, endoplasmic reticulum, golgi apparatus, vesicles, and the plasma membrane.
rough ER is involved with the production of
protein/polypeptide
fibrocartilage
pads between the bones of the vertebral column are made of the cartilage tissue
plasma membrane consists of
phospholipid bilayer, proteins, cholesterol (steroids)
eudicot leaves
pinnate or palmate
meristematic cells
plant cells that can divide throughout the entire plant life
separates the cytoplasm from the surrounding environment and regulates the passage of molecules into and out of the cell
plasma membrane
Turger pressure (plant cells)
pressure in plant cells is created by the force of the cytoplasm pushing against cell wall; increases in hypotonic solution
taproot
primary root found in some plants, like eudicots, that grows longer and thicker than other roots (ex: carrot)
function of epithelial tissue
protect body surfaces and line body cavities
nodes
the points at which leaves are attached
cotyledon
the seed leaf of a plant embryo that provides it with nutrients
internodes
the stem segments between nodes
meninges
three protective membranes that surround the brain and spinal cord
ground tissue
tissue system that makes up the majority of a plant (Sclerenchyma, parenchyma, and collenchyma)
cartilage
tissue that allows bones to slide against each other
what direction do the phosphate heads of the bilayer of phospholipids in the plasma membrane face
towards the outside and inside of the cell
endocytosis
transporting materials into a cell by the formation of a vesicle; inward pinching of the plasma membrane to form a vesicle
stem of plants
transports substances to and from the leaves through xylem and phloem
guard cells
two cells that flank the stomatal pore and regulate the opening and closing of the pore for gas exchange
Collenchyma
type of ground tissue cell with a strong, flexible cell wall in immature regions of the plant; helps support larger plants (ex: celery)
apical meristem
type of meristem that is located at the tips of stems and roots (Vascular, ground, and epidermal)
