BIOL230,EXAM4
smooth ER deals with
hormones and Ca2+ in cytosol for muscle contraction
The Retinoblastoma (Rb) protein blocks cells from entering the cell cycle by ______.
inhibiting cyclin transcription.
steps of mitosis (MPHASE)
prophase, Prometaphase, Metaphase, Anaphase, Telophase, Cytokinesis
microtubules must have organizing centers (ex: centrosome) in order to stay
protected from depolymerization(loss of dimers), (-) ends are protected by these organizing centers, (+) are usually free but can be stabilized by binding to capping proteins, when stabilized results in an organized system
clathrin
protein that coats the inward-facing surface of the plasma membrane and assists in the formation of specialized structures, like coated pits, for phagocytosis, pinches off the vesicle
p21
protein thatbinds to G1/S-Cdk and S-Cdk and inactivates them cell cycle regulatory protein that inhibits the cell cycle; its levels are controlled by p53
(Q007) Microtubules are made up of 13 ___________ that are linear chains of ___________.
protofilaments; tubulin dimers
(Q002) Which of the following is an important function of intermediate filaments?
providing tensile strength to the cell and the nucleus
(Q020) Shown below is a diagram of how theoretical intracellular signaling pathways could integrate incoming signals to produce a coordinated cell response. Which signal(s) would lead to activation of both kinase 1 and kinase 2?
signals A and D
anaphase A
sister chromatids are PULLED toward opposite poles (depolymerization)
anaphase B
sister chromatids are PULLED toward opposite poles (depolymerization)
anaphase
sister chromatids separate and pull at spindles and the microtubules get shorter and move apart
Lysosomes
small sacs of digestive enzymes degrade molecules and organelles by endocytosis, after going through endosomes which sort their shit
Parent cell doubles its contents and then divides in two which produces
two genetically identical daughter cells
Activated M-CdK→
turns ON APC/C
(Q005) Which of the following compartments receives proteins directly from cytosol?
peroxisomes
metaphase
chromosomes are aligned to the center between the spindle poles, the microtubules attach to opposite poles of the spindle
intermediate filaments polarity is??
both ends are the same so theres no polarity, monomer(single), dimer(double, tetramer(two dimers coiled in opposite directions)
(APC/C) marks the protein for destruction in proteasomes:
(M-cyclin degradation → events to exit M phase),
Contraction: from sliding:
1. Cell sends out protrusions 2. Protrusions adhere to surface (transmembrane proteins adhere to the ECM or surface of neighboring cell) 3. Rest of the cell drags
flagella move how
propel a cell through wavelike motions.
Two protein compartments help guide ER signal sequences to the ER membrane
SRP and SRP receptor
Tropomyosin
A protein of muscle that forms a complex with troponin regulating the interaction of actin and myosin in muscular contraction(binds ca2+)
receptor tyrosine kinase (RTK)
A receptor protein spanning the plasma membrane, the cytoplasmic (intracellular) part of which can catalyze the transfer of a phosphate group from ATP to a tyrosine on another protein. Receptor tyrosine kinases often respond to the binding of a signaling molecule by dimerizing and then phosphorylating a tyrosine on the cytoplasmic portion of the other receptor in the dimer.
seond step of contraction
AP causes opening of voltage-gated Ca2+ channel in the T-tubule
Actin monomer has a binding site for
ATP or ADP, the monomers within point in the same direction in a twist due to polarity. (+) end grows faster
first step of contraction
Action potential passes along the plasma membrane into T-tubules
Transcription regulators released ↓
Activate the transcription of genes required for entry into S phase
S phase: what happens (interphase)
Activates helicases, Promotes assembly of proteins at replication fork, Prevents re-replication by phosphorylating (inactivates) Cdc6 and ORC
how do proteins enter peroxisomes from ER
Arrive via vesicles that fuse, Vesicles form mature peroxisomes
Activated RTKs lead to
formation of signaling complexes on the cytosolic tail of RTK which activates a cascade of intracellular signaling pathways.
Akt phosphorylates and inactivates a cytosolic protein called
Bad
cilium move how
fully extend and move fluid over the surface of the cell, POWER STROKE
(Q009) Which of the following accurately describes a step in GTP-driven nuclear transport?
Binding of Ran-GTP to the receptor releases the cargo protein.
Exocytosis is
fusion of the vacuole membrane with the cell membrane which delivers whatever it was transporting.
(Q013) How do clathrin-coated vesicles select their cargo molecules?
Cargo receptors bind specifically to cargo proteins and to clathrin.
Ran-GEF (guanine nucleotide exchange factor):
Causes RAN-GDP to release GDP and bind GTP ***Nucleus side Only
M-Cdk is activated by
Cdc25 which removes the 2 phosphates
Cdk can be blocked by
Cdk inhibitor proteins
Ran
a GTPase that mediates nuclear transport,
What is GTPase activity?
Cleavage of a bound GTP to GDP.
The Cell-Cycle Control System
Depends on Cyclically Activated Protein Kinases Called Cdks:
Contraction is triggered by
a Sudden Rise in Cytosolic Ca2+ from the sarcoplasmic reticulum
(Q012) Which of the following is a difference between exocytic and endocytic pathways?
Exocytic pathways often start with synthesis of proteins, whereas endocytic pathways involve breaking down macromolecules like proteins.
(Q019) When an action potential excites a muscle cell,---- where do the calcium ions come from?
both the extracellular space and the sarcoplasmic reticulum
(Q017) Which of the following is NOT an intracellular signaling protein activated by an RTK?
G-protein
(Q002) Which of the following organelles is surrounded by a single membrane?
Golgi apparatus
(Q028) Akt promotes the survival of many cells by affecting the activity of Bad and Bcl2, as diagrammed in Figure 16-28.
In the absence of a survival signal, Bad is phosphorylated.
Activate G1-Cdks and G1/S Cdks ↓
Inactivate Rb(Rb = retinoblastoma protein (abundant in the nuclei of all vertebrate cells) ↓
What is the mechanism of transduction for a G protein-coupled receptor?
Initiating the exchange of bound GDP for GTP.
Separation of centrosomes begins in early
M phase(Form anti-parallel MTs = bipolar spindle)
What does Cdc25 regulate?
M-Cdk
M phase:
M-Cdk Drives Entry into Mitosis, Cohesins and Condensins Help Configure Duplicated Chromosomes for Separation,
(Q029) When the cytosolic tail of the __________ receptor is cleaved, it migrates to the nucleus and affects gene regulation.
Notch
(Q009) The figure below shows some steps involved in the initiation of DNA replication. What is the identity of the complex labeled "B"?
ORC
third step of contraction
Physical linkage opens the Ca2+-release channel in the sarcoplasmic reticulum
microtubules polarity:::
Polarity!!!, β-tubulin at one end (+), α-tubulin at other end (-) which goes towards γ-tubulin
(Q018) If Ras contains a mutation that leads to a defect in GTP hydrolysis, this could fuel uncontrolled proliferation in cancer because
Ras is able to signal to downstream pathways inappropriately.
What is the function of a phosphatase?
Removal of a covalently attached phosphate group from a protein.
fourth step of contraction
Results in the release of Ca2+ from the sarcoplasmic reticulum into the cytosol
In S phase(synthesis of DNA):
S-Cdk Initiates DNA Replication and Blocks Re-Replication, Replication needs to happen one time and only one time, Incomplete Replication Can Arrest the Cell Cycle in G2
Specific Rab proteins(monomeric GTPase that activates a tethering protein) on the surface of each type of vesicles are recognized by corresponding tethering proteins, additional recognition is provided by proteins called
SNAREs
how do proteins enter peroxisomes from cytosol
Sequence recognized by receptor protein in cytosol, Proteins can be escorted in, Translocators aids in pro transport (no unfolding!)
Ras
Small GTP-binding protein (monomeric GTPase) Bound to cytosolic side of membrane by lipid tail Resembles alpha subunit of a G protein Molecular switch (Activated by RTKs on= GTP off= GDP)
how microtubules be living
Some grow by adding dimers to (+) end, others shrink by loss of dimers
(Q016) How does the binding of a signal molecule activate an RTK for downstream signaling?
The RTK forms a dimer and cross-phosphorylates itself.
(Q016) If a chromosome is attached to two microtubules from opposite poles and one of the microtubules is experimentally severed, what occurs?
The chromosome migrates quickly to the pole to which it is still attached.
(Q019) What determines the position of the cleavage furrow of the dividing cell?
The interpolar microtubules send signals to form a cleavage furrow between the poles.
Endoplasmic Reticulum ER:
The transportation system of the cell. It moves materials around the cell
Akt indirectly activates
Tor (large serine/threonine kinase)
Inactivate Rb(Rb = retinoblastoma protein (abundant in the nuclei of all vertebrate cells) ↓
Transcription regulators released ↓
Unattached chromosome will stop things:
Unattached kinetochores send "stop" signal, Blocks activation of APC/C Sister chromatids remain glued *Also prevents cyclin degradation (prolongs mitosis)
in vesicular transport, Transport Vesicles Carry Soluble Proteins and Membrane Between Compartments
Usually goes from ER lumen or membrane to golgi to be modified, this transport is carried out by vesicle transporters
As soon as M-Cdk complex forms it is inhibited by
Wee 1 (adds 2 phosphates)
(Q011) A single-pass transmembrane protein destined for one of the organelles in the endomembrane system would be marked by what type of signal sequence?
a cleaved N-terminal ER signal sequence and an internal stop-transfer sequence
RAN-GAP (GTPase Activating Protein):
Will cause RAN to hydrolyze GTP to GDP ***Cytosol side Only
Sarcomeres:
Z discs at either end are attachment points for the (+) ends of the actin filaments
The nuclear envelope is supported by
a meshwork of intermediate filaments , intermediate filaments of the nuclear lamina line the inner face of the nuclear envelope in order to provide attachment sites for the chromosomes
The growth factor Superchick stimulates the proliferation of cultured chicken cells. The receptor that binds Superchick is a receptor tyrosine kinase (RTK), and many chicken tumor cell lines have mutations in the gene that encodes this receptor. Which of the following types of mutation would be expected to promote uncontrolled cell proliferation?
a mutation that inactivates the protein tyrosine phosphatase that normally removes the phosphates from tyrosines on the activated receptor
myosin I
binds and hydrolyzes ATP moves to the (+) end of actin filaments, then moves the vesicle attached to the other end of the myosin I tail.
(Q020) The contractile ring is composed of
actin and myosin.
Myosin-I can also bind to an
actin filament in the cell cortex, ultimately pulling the plasma membrane into a new shape
A web of actin filaments pushes the leading edge forward...
actin-binding proteins influence the type of protrusions formed at the leading edge, capping prevents them from dying off,
The cleavage furrow is formed by the
action of the contractile ring underneath the plasma membrane,
When the cell is in the M-phase, M-Cdk does what
activity increases
(Q036) Figure 16-36 shows how normal signaling works with a Ras protein acting downstream of an RTK. You examine a cell line with a constitutively active Ras protein that is always signaling. Which of the following conditions will turn off signaling in this cell line?
addition of a drug that blocks protein Y from interacting with its target
Conditions inside Golgi lead to
aggregation (acidic and high in Calcium ions)
intermediate nuclear lamins in
all animal cells
troponin complexes
binds to the grooves of actin preventing myosin from binding). Ca2+ binding to the troponin complex leads to movement of tropomyosin away from the myosin-binding site
after mitosis checkpoint
are all chromosomes hanging onto mitotic spindle
From cytosol to nucleus protein sorting
are transported by nuclear pores, pores act as a gate and only let in specific things but allows freedom to small boys
Cytosol to ER, mitochondria, or chloroplasts protein sorting
are transported by protein transporters in the membrane, the protein unfolds in order to cross the hydrophobic insides
(Q015) At the leading edge of a cell, ARP proteins help form new branches on actin filaments to push the leading edge forward using the force of the polymerization _________,
at the plus ends of newly polymerized actin filaments
(Q006) Microtubules extend from organizing centers in the cell. Which is an example of an organizing center?
basal body of a cilium
Mitotic spindle:
begins to exist in prophase, form anti-parallel MTs:bipolar spindle, interactions promote stability(nono to depolymerization), chromosomes attach to the mitotic spindle at prometaphase due to tension in microtubules
Bad stops apoptosis by
binding to and inhibiting a protein called Bcl2
What is the mechanism of transduction for an ion-channel-linked receptor?
gating of an ion channel
Myosin II filaments
can slide TWO actin filaments of OPPOSITE orientation past each other, the head walks towards the plus end and brings the two actin filament's minus ends keeping both attached
Rac
causes the formation of an enormous lamellipodium,
Pinocytosis:
cell drinking, ingestion of fluid and small things using pinocytotic vesicles.. Material is rapidly delivered to endosomes
Phagocytosis:
cell eating, ingestion of large things, using large phagosome vesicles
activated bad causes
cell suicide aka apoptosis
position of cleavage furrow is determined by the
central spindle, Interpolar microtubules recruit proteins that generate a signal (during anaphase)
S-Cdks and M-Cdks need to be disabled by the end of M phase: to
complete division, to prevent another round of division without time in G1
intermediate vimentin filaments in
connective tissue, muscle, and glial cells,
(Q002) During nervous-system development in Drosophila, the membrane-bound protein Delta acts as an inhibitory signal to prevent neighboring cells from developing into neuronal cells. Delta is involved in __________ signaling.
contact-dependent
Peroxisomes
contain enzymes that break down lipids and toxic molecules produce hydrogen peroxide
The outer nuclear membrane
continuous with the ER
Notch:
controls the development of neural cells in Drosophila, when activated the Receptor is cleaved by a protease. The released part of the cytosolic tail of Notch migrates to the nucleus, where it activates Notch-responsive genes-
Due to chemical properties, hormones can
cross the membrane, when hormones are bound they act as transcription regulators, each hormone binds to a different nuclear receptor
Cdks
cyclin-dependent kinases egulation through phosphorylation, Active Cdks phosphorylate intracellular proteins that regulate major events in cell
(Q003) The expression levels of different ___________ fluctuate throughout the cell cycle.
cyclins
C-term
cytosol, Transfer process stops when hydrophobic stop-transfer sequence enters the translocator, Translocator releases polypeptide sideways into the lipid bilayer, N-term signal seq is cleaved
(Q011) M-Cdk is suddenly activated at the end of G2 by
dephosphorylation by Cdc25.
(Q018) What drives the reassembly of the nuclear envelope?
dephosphorylation of lamins
turns ON APC/C→
destroys M cyclin(ubiquitylation)
Signal sequence:
direct proteins to the correct compartment, proteins are labeled with amino acid sequences called sorting signal, which is usually cleaved from final sorted protein
notch is a what route??
direct route to nucleus to control gene expression
step 2 of DNA DAMAGE REPAIR
p53 stimulates transcription of p21 gene(inhibits Cdk)
Mitochondria and chloroplast:
double membranes, highly specialized to make ATP, POWERHOUSE OF the mMOTHER****ING CELLL BROOO
G1-Cdk:
drive toward S phase
Prophase
duplicated chromosomes condensation and the mitotic spindle begins to assemble
SRP receptor-
embedded in the ER membrane, recognizes the SRP and binds to it which the receptor passes the ribosome to a protein translocation in the ER
Nuclear envelope:
encloses nuclear DNAand defines nuclear department, perforated by nuclear pores where proteins enter. A large rug of proteins which contain random disordered parts (hase two membranes outer and inner)
M-Cdk:
entry into M phase and the levels fall mid-mitosis
PI-kinase:
enzyme that phosphorylates inositol phospholipids in the plasma membrane, RTKs activate a pathway using PI-kinase 3 to promote cell growth, phosphorylated lipids serve as docking sites for specific signaling proteins such as Akt
(Q008) Which type of cell-surface receptor(s), when activated, catalyze(s) a reaction inside the cell?
enzyme-coupled receptors
intermediate keratin filaments in
epithelial cells
endosymbiosis
eukaryote ate a bacteria that was the mitochondria
Secretory Proteins Are Released from the Cell by
exocytosis
Mitogens:
extracellular chemicals produced by other cells that stimulate cell division
True or false: If a lysosome exploded the acid hydrolase would be at 7.2 pH, the same as cytosol so no damage would occur.
false
Intermediate filaments: are built like???
fibrous proteins, mechanical strength Strong and ropelike, grow longer by the addition of tetramer arrays to either end,
Actin filaments built how
globular actin, support cell surface, crawling, muscle contraction, Thin and helical, made of actin, flexible, found in bundles
Microtubules:
globular tubulin, organize cytoplasm, movement(form cilia) Long, hollow and straight made of rigid tubulin,
DNA Damage repair
halting progression through G1:
Nucleoplasm
has a double membrane known as the nuclear envelope and communicates with the cytosol using nuclear pores
(Q010) Proteins encoded by nuclear genes and destined for the mitochondrial matrix
have a signal sequence for targeting to the mitochondria.
why do proteins unfold to enter mitochondria?
have double layers, inner membrane in between, proteins need to cross it all, protein has already been fully synthesized in cytosol < a signal sequence needs to be recognized by the import receptor and translocator
making inhibitor proteins : By
having multiple control mechanisms inactivation of Cdk activity is ensured!
Condensins:
help coil each DNA double helix into a smaller, more compact structure that can be more easily segregated during mitosis
G1/S Cdk:
help launch S phase and stimulates chromosome duplication and early mitotic events
Cyclins
help regulate the activity of Cdks
(Q001) Which of the cytoskeletal structures are made up of protein subunits that are fibrous?
intermediate filaments
(Q008) Nuclear pores restrict larger molecules from traversing the membrane due to their
interwoven meshwork of protein fibrils.
before mitosis checkpoint
is all DNA replicated and damage repaired?
The inner nuclear membrane
is binding sites for chromosomes and anchors nuclear lamina
before S phase checkpoint
is environment good
inactivate S-Cdks and M-Cdks by:
killing cyclins, blocking new cyclins
What is the enzymatic activity of M-cdk?
kinase:an enzyme that catalyzes the transfer of a phosphate group from ATP to a specified molecule.
Monomeric GTPases
large family of small GTP-binding proteins, cycles between two different modes: on when GTP is bound and off when GDP is bound
Plectin
links an intermediate filament to microtubules, cross-links filaments into bundles and connects them to cytoskeleton and cell-cell junctions
**N-term
lumen, directed protein to ER and also OPENS the translocator. ER signal sequence remains bound to the translocator, the rest of polypeptide is threaded through
The lumen of the lysosome is
maintained at an acidic pH by an ATP-driven H+ pump in the membrane that hydrolyzes ATP to pump H+ into the lumen.
Peroxisomes and proteinssss
membrane bound, break down lipids, perform synthesis(make myelin) and detoxification in organelles
(Q029) Which word or phrase below best describes the phase in mitosis depicted in Figure 18-29?
metaphase
which is bigger, microtubule or actin?
microtubule
(Q012) Microtubules participate in the spatial polarization of nerve cells because
microtubule (-) ends originate near the cell body allowing (+) end-directed transport along the axon.
(Q005) Which of the following represents the placement of microtubules in an epithelial cell?
middle one
M-Cdk phosphorylates (activates)
more Cdk-activating phosphatase (Cdc25), creating a positive feedback loop, If Cdc25 is inhibited the cell will stay in the S-phase, This happens if replication does not occur properly,
Movement of cells::
most eukaryotic cells move by pulling themselves across surfaces. (ex. growth of axons, amoebas, neutrophils) using cortical actin
A skeletal muscle is full of
myofibrils which contract and are made of sarcomeres
Q016) Which of the following motor proteins has one head domain, moves along actin toward the plus end, and is found in all cell types?
myosin-I
Cytokinesis:
mytotic spindle determines the plane of cytoplasmic cleavage, the contractile ring of animal cells is made of actin and myosin filaments,
SRP
n cytosol, binds to both the ribosome and ER signal sequence as it emerges the ribosomes, slows down protein synthesis done by ribosome
Golgi bodies:
near nucleus, receives proteins and lipids from the ER and modifies them to bring them places,, single membrane
intermediate neurofilaments in
nerve cells
RNA is exported and protein is imported through
nuclear pore gate
(Q007) Fully folded proteins can be transported into which of the following organelles?
nucleus
Microtubules organize the cell interior by providing
orientation for directional transport in a cell like in axon
step 3 of DNA DAMAGE REPAIR
p21 protein binds to G1/S-Cdk and S-Cdk and inactivates them
binding of_____ moves the active site and makes it inactive and pauses cycle
p27
Q008) In response to DNA damage, the ___________ protein is phosphorylated and activates the transcription of a Cdk inhibitor to halt cell cycle progression.
p53
step 1 of DNA DAMAGE REPAIR
p53 is activated (phosphorylation)
What is the enzymatic activity of Cdc25?
phosphatase: an enzyme that catalyzes the hydrolysis of organic phosphates in a specified (acid or alkaline) environment.
What is the mechanism of transduction for a RTK?
phosphorylation of receptor dimers on the intracellular side
Akt protein(
promotes growth and survival of many cells by inactivating the signaling proteins it phosphorylates,
Rho
promotes the rapid assembly of bundles
(Q018) The binding of ATP causes a conformational change in myosin that
releases the myosin head from the actin filament.
rough ER has
ribosomes that actively synthesize proteins
sister chromatids tied until the
rings are broken late in mitosis
soluble proteins are made _____ and released in _______
rough ER, ER lumen
Where would mRNA translate a protein that has a sequence for the ER?
rough ER, where ribosomes are
Duplication begins at the start of ____ and is complete by _____
s phase, G2(Triggered by G1/S-Cdk and S-Cdk)
Cilia and flagella contain
stable microtubules moved by dynein.
Prometaphase:
starts when nuclear envelope begins to breakdown, chromosomes can now attach to spindle microtubules
Cdc42
stimulates the protrusion of filopodia
p53
stimulates transcription of p21 gene(inhibits Cdk) Molecule that prevents mitosis in cells with damaged DNA. Changes in its activity can result in cancer.
Secretory vesicles do what now
store and release concentrated proteins. and are further modified and sorted in the golgi
Vesicle Budding Is Driven by
the Assembly of a Protein Coat: vesicles that bud from membranes usually have a protein coat on their surface so they are called coated vesicles, they shed their coat after budding in order to better interact with membrane,
cytokinesis
the cytoplasm is divided in two by a contractile ring of actin and myosin filaments which pinch the cell into two separate daughter cellios
Cytosol
the goop that organelles and shit float around in!
telophase
the two sets of chromosomes are on opposite sides and a new nuclear envelope start to form around each and the division of the cytoplasm begins
MAP-kinase signaling module,
three-kinase module, part of the Ras phosphorylation cascade, ends with change in the pattern of gene expression may help cell grow and become whatever cell it needs to be.
(Q012) What is the function of condensins?
to coil sister chromatids into a compact form
Enzyme-coupled receptors:
transmembrane proteins that display their ligand-binding domains (which acts as an enzyme or forms a complex) on the outer surface of the plasma membrane
From the ER to wherever, protein sorting
transport vesicles which pinch off from their sport in membrane to fuse to membrane of another part which deliver soluble cargo proteins
APC/C:
triggers the separation of sister chromatids by promoting the destruction of cohesins, by anaphase-promoting-complex (APC/C) marks securin for destruction in proteasomes
Skeletal muscle contraction is controlled by
tropomyosin and troponin complexes
Activated RTKs can be reversed by
tyrosine phosphatases which remove the phosphates that were added to the tyrosines on both the RTK and other proteins,
Ras can be mutated and locked on which can cause
uncontrolled cell growth
(Q014) In which process do Rab proteins function?
vesicle tethering
Lysosomes:
where many particles and molecules end up after ingestion, contain hydrolytic enzymes that degrade proteins and lipids and stuff,
without plectin
your cells cannot withstand the mechanical stress of a body