Zaidi

Question 1

what is gated transport

Answer 1

between nucleus and cytosol through nuclear pore complexes (active transport and free diffusion)

Question 2

what is transmembrane transport

Answer 2

membrane protein translators directly transport specific proteins from cytosol across an organelle membrane

Question 3

what is vesicular transport

Answer 3

membrane enclosed transport intermediates move proteins between various compartments via vesicles

Question 4

protein transfer/transport to various compartments guided by ______

Answer 4

sorting signals

Question 5

describe sorting signals

Answer 5

stretch of amino acids, typically 15-60 residues long with localization on N or C terminus within protein sequence

Question 6

multiple scattered sequences in protein may form ______

Answer 6

signal patch

Question 7

what removes signal after protein reaches final destination?

Answer 7

signal peptidase

Question 8

Signal sequences are both necessary and sufficient for what?

Answer 8

protein targeting

Question 9

What are signal sequences recognized by?

Answer 9

complementary receptors

Question 10

Describe nuclear transport

Answer 10

bidirectional, selective and gated

Question 11

what are sorting signals called for nuclear?

Answer 11

nuclear localization sequence

Question 12

nuclear localization sequences are rich in what amino acids?

Answer 12

lysine and arginine

Question 13

what are nuclear pore complexes?

Answer 13

perforate nuclear envelope in eukaryotic cells which transports molecules in both directions, passive diffusion of small molecules and facilitated transport

Question 14

transport of the nuclear pore complex is facilitated by the binding of particles to _____ extending from NPC

Answer 14

fibrils

Question 15

what are nuclear localization signals (NLS)

Answer 15

sorting signals that direct molecules to nucleus, rich in lysine and arginine

Question 16

look at nuclear import and export pictures

Answer 16

slide 9

Question 17

the mitochondrial signal sequence is made up of _______ and _____ signal sequences

Answer 17

n terminal and internal

Question 18

In the mitochondrial signal sequence specific receptor proteins recognize a configuration which is what?

Answer 18

positively charged residues cluster on one end and uncharged hydrophobic on the other end to form an amphiphilic alpha helix

Question 19

review the translators in mitochondrial membrane slide

Answer 19

slide 12

Question 20

Where is the tom complex located?

Answer 20

outer mitochondrial membrane

Question 21

where is the Sam complex located

Answer 21

outer mitochondrial membrane

Question 22

Where is the Tim22 and tim23 complexes located?

Answer 22

inner mitochondrial membrane

Question 23

Where is the Oxa membrane complex located?

Answer 23

inner mitochondrial membrane

Question 24

What does the TOM do?

Answer 24

import of all nuclear encoded proteins to insert them in the outer membrane

Question 25

what does TIM 23 do?

Answer 25

transports soluble proteins into matrix and helps insert membrane proteins in inner membrane space

Question 26

what does TIM 22 do?

Answer 26

mediates the insertion of a specific subclass of proteins

Question 27

What are the two components of the tom and Tim complexes?

Answer 27

receptors for mitochondrial precursor proteins

translocation channels

Question 28

What does the sam complex do?

Answer 28

translocates and inserts/folds beta barrel proteins in the outer membrane

Question 29

What does the oxa complex do?

Answer 29

mediates insertion of all proteins synthesized in mitochondria. Also some proteins already present in matrix brought from outside

Question 30

ER signal sequence guided to ER membrane by 2 components:

Answer 30

• signal recognition particle (SRP)

- SRP receptor

Question 31

What is the SRP large hydrophobic pocket lined with?

Answer 31

methionine

Question 32

review SRP role slide

Answer 32

slide 17

Question 33

proteins and other biomolecules are transported via ______

Answer 33

transport vesicles

Question 34

contents of vesicles are called

Answer 34

cargo

Question 35

look at vesicular transport slides

Answer 35

slides 20-21

Question 36

what do Rab proteins do?

Answer 36

direct vesicle to specific spots on target membrane

Question 37

what do SNARE proteins do?

Answer 37

mediate fusion of vesicle with membrane

Question 38

docking and fusion of vesicle slide

Answer 38

slide 23

Question 39

what are the pathways in which materials are delivered to the lysosome

Answer 39

phagocytosis
endocytosis
autophagy

Question 40

lysosomal hydrolyses have sorting signal _______ attached to them in the cis Golgi network

Answer 40

mannose-6-phosphate

Question 41

the mannose 6 phosphate receptor in the trans golgi network recognize a sugar and then package them into _____

Answer 41

clathrin coated vesicles

Question 42

where are clathrin coated contents delivered

Answer 42

endosomes then to lysosome

Question 43

sorting of lysosomal protein slide

Answer 43

slide 28

Question 44

describe sub cellular fractionation

Answer 44

tissue: mechanical blending
homogenate: suspension of different cell types
centrifugation to separate different cell types, based on size and density
lysis of cells: osmotic shock, ultrasonic vibration, mechanical blending, forcing through small orifice
ultracentrifugation: separates organelles

Question 45

after low speed centrifugation, what is in the pellet?

Answer 45

whole cells
nuclei
cytoskeletons

Question 46

after medium speed centrifugation, what is in the pellet?

Answer 46

mitochondria, lysosomes, peroxisomes

Question 47

after high speed centrifugation, what is in the pellet?

Answer 47

microsomes, small vesicles

Question 48

after very high speed centrifugation, what is in the pellet?

Answer 48

ribosomes, viruses, large macromolecules

Question 49

describe ion exchange chromatography

Answer 49

positively charged bead attract negatively charged molecules, so positively charged molecules can travel freely

Question 50

describe gel filtration chromatography

Answer 50

porous beads attract small molecules, and large molecules can get through

Question 51

describe affinity chromatography

Answer 51

beads have covertly attached substate, so certain proteins bind while others can go through

Question 52

where does HaeIII cut DNA

Answer 52

at G-C binding

Question 53

Where does EcoRI cut DNA

Answer 53

at G-A binding

Question 54

Where does HindIII cut DNA

Answer 54

at A-A binding

Question 55

in agarose gel electrophoresis, DNA is already ____

Answer 55

charged

Question 56

how is DNA ‘glued’ together?

Answer 56

ligase reaction (with help of ATP)

Question 57

homologous proteins are functionally _______

Answer 57

interchangeable

Question 58

what is a blastula? and what does it give rise to?

Answer 58

blastula consists of a sheet of epithelial cells facing the external medium, which gives rise to the ectoderm

Question 59

what is the ectoderm?

Answer 59

precursors to nervous system and epidermis, gives rise to endoderm

Question 60

what is the endoderm

Answer 60

precursor of gut, lung and liver

gives rise to mesoderm

Question 61

what is the mesoderm

Answer 61

precursor of muscles and connective tissue

Question 62

where are the instructions for producing a multicellular animal?

Answer 62

non-coding regulatory DNA

Question 63

Cells make developmental decisions long before they show signs of ______

Answer 63

differentiation

Question 64

what are determined cells

Answer 64

Cells that are fated to develop into a specialized cell type despite changes in the environment

Question 65

What are completely undetermined cells

Answer 65

cells that can change rapidly due to alterations in the environment

Question 66

What are committed cells

Answer 66

cells that have some attributes of a particular cell type but can change with environment

Question 67

most important environmental cues are from where?

Answer 67

signals from neighboring cells

Question 68

describe a short range signal

Answer 68

cell-cell contacts

Question 69

describe a long range signal

Answer 69

substances that can diffuse through the extracellular medium

Question 70

What is a morphogen

Answer 70

long range inductive signal that imposes a pattern on a filed fo cells, forms gradients of different concentrations

Question 71

What is the morphogen gradient formed by?

Answer 71

localized production of an inducer that diffuses away from its source
localized production of an inhibitor that diffuse away from its source and block the action of a uniformly distributed inducer

Question 72

describe phase 1 of neural development

Answer 72

different cell types develop independently at widely separate locations in embryo according to local program and are unconnected

Question 73

describe phase 2 of neural development

Answer 73

axons and dendrites grow out along specific routes setting up a provisional but orderly network of connections between various parts of the system

Question 74

describe phase 3 of neural development

Answer 74

continues into adult life, connections are adjusted and refined through interactions with distant regions via electric signals

Question 75

neurons are produced in association with ______ cells

Answer 75

glial

Question 76

CNS is derived from what?

Answer 76

neural tube

Question 77

PNS is derived from what?

Answer 77

neural crest

Question 78

tip of axon/dendrite has irregular, spiky enlargement called the ______

Answer 78

growth cone

Question 79

what is growth cone behavior dictated by?

Answer 79

its cytoskeletal machinery

Question 80

monomeric GTPases ____ and ____ control the assembly and disable of actin filaments, which control _____ of growth cone

Answer 80

Rho and Rac, movement

Question 81

growth cones travel toward target cells along predictable routes by exploiting two major cues to find their way. What are these?

Answer 81

extracellular matrix environment: sensed by receptors present on membrane
chemotactic factors: related by neighboring cells, attractive or repulsive

Question 82

what are chemotactic factors?

Answer 82

guidance factors at strategic points along path and are attractive or repulsive

Question 83

What are examples of chemotactic factors?

Answer 83

netrin
slit
semaphorin

Question 84

look at mechanism of commissural neuron guidance

Answer 84

slide 64

Question 85

once axonal growth cone reach eventual target cells what does it do?

Answer 85

halt, communicate and make synapses with target cells

signal form target tissue regulate which growth cone synapses and where

Question 86

synaptic remodeling is dependent upon 2 rules that create spatial order. What are these?

Answer 86

• axons from cells in different regions of retina compete for tectal neurons
• axons from neighboring sites which are excited at same time cooperate/collaborate to retain and strengthen synapses with tectal neurons

Question 87

What does activity dependent synaptic remodeling depend on?

Answer 87

electrical activity and synaptic signaling

Question 88

What are the characteristics of stem cells?

Answer 88

not terminally differentiated
can divide without limit
ability to renew themselves
when divide each new cell has ability to remain a stem cell or become differentiated into a different cell type
undergo slow division

Question 89

totipotency

Answer 89

ability of a cell to give rise to all cells of an organism, including embryonic and extra embryonic tissues (zygote)

Question 90

pluripotency

Answer 90

ability of cel to give rise to all cells of the embryo and subsequently adult tissues (embryonic stem cells)

Question 91

multi potency

Answer 91

ability of a cell to give rise to different cell types of a given lineage (adult stem cells)

Question 92

asymmetric division

Answer 92

creates 2 cells, one with stem cell characteristics and another with ability to differentiate

Question 93

independent choice

Answer 93

division makes 2 identical cells but he outcome is stochastic and/or influenced by environment

Question 94

describe epidermis

Answer 94

forms outer covering of skin
creates water barrier
made of epithelial cells
continuously repaired and renewed

Question 95

describe dermis

Answer 95

second layer, rich in collagen, provides toughness

Question 96

describe hypodermis

Answer 96

fatty subcutaneous layer

Question 97

what is the only dividing cells in the epidermis

Answer 97

basal cell layer

Question 98

look at epidermis layer picture

Answer 98

slide 77

Question 99

renewal of epidermis slide

Answer 99

slide 78-79

Question 100

describe the olfactory neuron

Answer 100

bipolar neurons with a dendrite facing extracellular environment and an axon that travels along the olfactory nerve. Hair like cilia protrude from dendrite.

Question 101

describe the odorant receptors of the olfactory neurons

Answer 101

on the free surfaces of cilia, and are a type of G protein coupled receptors

Question 102

describe the process of what happens when an olfactory receptors is activated

Answer 102

activates intracellular G protein (Golf)
activates adenylate cyclase which produces cyclic AMP
opening of ion channels in plasma membrane which results in influx of sodium and calcium
influx of positive ions cause neuron depolarization, generating action potential

Question 103

individual olfactory neurons survive only for _____

Answer 103

a month

Question 104

what do embryonic stem cells develop into?

Answer 104

different cell types with characteristics appropriate for that site

Question 105

look at derivation of ES cell slide

Answer 105

slide 91

Question 106

what is a different source of human embryonic stem cells?

Answer 106

somatic cell nuclear transfer (SCeNT)

Question 107

strategies to induce ES cell like properties in adult somatic cells

Answer 107

induced pluripotent stem (iPS) cells

Question 108

describe SCeNT

Answer 108

nucleus taken from somatic cell of patient and injected into oocyte of a donor, replaces oocyte nucleus. Blastocyst generated form hybrid oocyte and ES cells isolated

Question 109

descrive iPS cells

Answer 109

somatic cells can be reprogramed to form iPSC by exposing them to defined, limited sets of transcription factors (genes for stem-ness)