6-1 (8.11.16)

Question 1

chromatin consists of

Answer 1

DNA
histone
non-histone

Question 2

nucleosome is composed of (NOT the def of complex of histones)

Answer 2

nucleosome core particle (NCP) and DNA

Question 3

Ribosomes

Answer 3

”” often occur on the ONM

Question 4

1 stains lightly: its genes are actively transcribing

2 stains darkly: its genes are transcriptionally inactive.

Answer 4

1 Euchromatin

2 Heterochromatin

Question 5

nuclear pore contain “” channels

what goes thru them

Answer 5

aqueous

ions and small molecules

Question 6

large proteins enter via active transport and require what

Answer 6

localization signal

Question 7

lamins are “” filament

Answer 7

intermediate

Question 8

function of nucleolus

Answer 8

makes ribosome subunits

Question 9

cell phase eq

Answer 9

G1 + S + G2 + M (mitosis + cytokinesis)

Question 10

division results in “” (adj) cells

BUT

Answer 10

genetically identical

daughter cells have dif forms

Question 11

condensation purpose

Answer 11

prevent chromosomes from tangling together in mitosis

Question 12

chromosomes are maximally condensed at “”

Answer 12

metaphase

Question 13

disengagement - when does that occur

describe it

Answer 13

G1

centrioles move apart within centrosome

Question 14

a new centriole is called

Answer 14

PRO centriole

Question 15

cells at what phase are used for KARYOTYPE analysis

why

Answer 15

metaphase

chromosomes are maximally condensed

Question 16

what serves as MT organizing center

Answer 16

centrosomes

Question 17

purpose of astor MT

Answer 17

anchor poles to cell periphery

Question 18

daughter chromatids are held together at centromere VIA what protein

Answer 18

CO-HESIN

Question 19

define mitosis

Answer 19

mother -> 2 cells (genetically identical to m)

Question 20

four steps of mitosis

Answer 20

prophase
metaphases
ana
telo

Question 21

cytokinesis begins when

Answer 21

ana or telo

Question 22

purpose of astor microtubules

Answer 22

anchor and pull

Question 23

”” drives telophase

Answer 23

Dephosphorylation

read: D causes nucleus to reassemble
D causes spindle MT to disappear
D causes chromosomes to decondense

Question 24

contractile ring forms where

then what forms

last step of contractile ring

Answer 24

bt membranes at anaphase

cleavage furrow

daughter cells break apart

Question 25

the contraction caused by “” and “” causes cleavage furrow to form

Answer 25

actin

myosin

Question 26

apoptosis def

Answer 26

programmed cell death

Question 27

read: apoptosis AVOIDS inflammation

what causes i then

Answer 27

-

necrosis

Question 28

do prokaryotes have actin, MT, and IMF

Answer 28

NO

Question 29

prokaryotic version of cilia

Answer 29

flagella

Question 30

read: P DNA lacks histones

Answer 30

-

Question 31

dif bt chromatid and chromosome

Answer 31

when chromatids separate, they become chromosome

Question 32

central dogma is

Answer 32

DNA -> transcription -> RNA -> translation -> protein

Question 33

types of RNA (5)

Answer 33

rRNA
mRNA 
tRNA 
snRNA (small nuclear) 
RNAi (miRNA, siRNA)

Question 34

tRNA role

Answer 34

transfer amino acid onto polypeptide chain

Question 35

RNAi role

snRNA role

Answer 35

miRNA - translation inhibit
siRNA - mRNA degrade

RNA splicing (introns, exons) AND telomere maintenance

Question 36

80% of all cellular RNA is this type of RNA

smallest RNA

15% of all cellular RNA is this

Answer 36

rRNA

tRNA

tRNA

Question 37

at least 1 tRNA for # AA

Answer 37

20

Question 38

in eukaryotes, what is a weird thing about mRNA

why

Answer 38

translated mRNA is NOT exact copy of DNA

bc post transcriptional changes

Question 39

three main steps of RNA synthesis in PROKARYOTES

Answer 39

#1. initiation 
#2. elongation 
#3. termination

Question 40

P RNA synthesis

Initiation steps

Answer 40

-RNA polymerase holoenzyme binds to promoter region

Question 41

what’s interesting about promoter region

Answer 41

it is NOT transcribed

Question 42

How does RNA polymerase RECOGNIZE promoter region

Answer 42

in RP, holoenzyme contains a sigma factor

Question 43

within the promoter region are what

(for PROKARYOTES)

ex (2)

Answer 43

highly conserved consensus sequences

ex:
PRIB-NOW box (10 nucleotides before coding region)
35 hexamer

Question 44

P RNA synthesis

Elongation steps

Answer 44

read: once RNA transcription begins, sigma factor dissociates

Question 45

what’s key dif bt RNA and DNA polymerase

Answer 45

RNA P = no proofreading ab

Question 46

P RNA synthesis
Termination steps

dep

Answer 46

could be RHO dependent or independent

dep
-RHO factor follows RNA P; RHO factor (helicase protein) recognizes rut sequence (termination signal)

Question 47

Rho-indep termination

Answer 47

newly made RNA has a sequence that allows for creation of hairpin structure

RNA sequence at 3’ end is rich in U’s, which bind weakly to A’s on DNA

new RNA separates from DNA

Question 48

why does U bind to A’s

Answer 48

A has two H bonds

Question 49

palindrome def

Answer 49

ABC = BCA

Question 50

the hairpin loop formed in R-IND termination results bc

Answer 50

palindrome

Question 51

euk gene expression is regulated by what (dif from P)

Answer 51

PROMOTER 
plus 
chromatin 
enhancer 
inhibitor

Question 52

read: also euk RNA is dif bc it is modified after transcription

Answer 52

-

Question 53

euk transcription initiation - name the 3 dif consensus sequences found in promoters

Answer 53

consensus sequence (in order, closest to farthest)

• TATA/Hogness box
• –similar to Pribnow box
• GC box
• CAAT box
• –much more farther upstream than TATA

Question 54

the EUK consensus sequences are called what

why

Answer 54

cis acting DNA elements

on the same strand of DNA that is being transcribed

Question 55

where is enhancer

purpose

Answer 55

region of DNA up/down stream of promoter

transcription factors bind to enhancer AND it stabilizes initiation complex

Question 56

enhancer is cis acting

while “” is trans acting

Answer 56

enhancer binding transcription factor

read: trans means from dif gene

Question 57

euk have 3 types of “” polymerases

Answer 57

RNA

Question 58

clinical: “” found in poisonous mushrooms INHIBITS what

Answer 58

alpha A-MAN-I-TIN

RNA polymerase

Question 59

euk transcription

steps of gene expression

Answer 59

1. chromatin structure regulates gene expression

Question 60

what cannot be transcribed vs what can

why

Answer 60

CANNOT: hetero-chromatin
tightly wound

CAN: euchromatin
loosely wound

Question 61

what kind of DNA Is generally not transcribed

Answer 61

methylated DNA

Question 62

what relaxes chromatin structure to allow for more gene transcription

Answer 62

acetylation of histones

Question 63

euk mRNA undergoes modifications…what are they

Answer 63

5’ capping
poly A tail
removal of introns

Question 64

define intron

Answer 64

mRNA that doesn’t code for protein

Question 65

what combination permits the start of translation

Answer 65

5’cap

Question 66

define spliceosome

Answer 66

splices mRNA to remove introns AND joins exons together to yield mRNA

Question 67

what accounts for 15% of all genetic diseases

Answer 67

mutation at splice sites

Question 68

read: alternative splicing is a way of diversifying the protein encoding capacity of limited # of genes

Answer 68

-

Question 69

give ex of alternative splicing

-just give key fact

Answer 69

key: TRO-PO-NIN

read: BUT alternative splicing of its gene sequence results in dif isotypes
look for UP level of cardiac specific troponins if suspect heart damage

Question 70

what proteins are involved in transport of fats

two forms

why truncated

Answer 70

Apo-lipo-proteins

A B100

• liver
• untruncated

A B48

• small intestine
• truncated

RNA editing made an error; get early stop codon

Question 71

”” form is the relevant form in mammalian physio

Answer 71

L form

Question 72

what are the two forms of AA

Answer 72

L and D forms

Question 73

what’s special about GLYSINE

Answer 73

it is symmetric, therefore does NOT exist in L and D forms

Question 74

formation of peptide bond results in a loss of charged state of stuff

Answer 74

-

Question 75

proline disrupts “” structures

more specific

Answer 75

secondary

interrupts alpha-helices

Question 76

what AA forms disulfide bonds

Answer 76

cysteine

Question 77

”” “” and “” can accept phosphate groups

why

Answer 77

Serine, threonine and tyrosine

OH

Question 78

phosphorylated enzyme = spot opens up and substrate can bind

Answer 78

-

Question 79

define glycosylation

describe the two types

Answer 79

1 Serine or Threonine = 0 glycosylation

addition of oligosaccharide to protein

Question 80

glycoproteins identity (typical, 2)

Answer 80

secreted (hormones)

receptors

Question 81

beta and alpha chain in insulin are held together by what

Answer 81

disulfide bonds

Question 82

alpha helix and beta sheet

-(1/2) structure

Answer 82

secondary

Question 83

describe secondary and tertiary structure

Answer 83

2: folds into a repeating pattern bc of H bond interactions

3: 3-D folding bc of side chain interactions
read: ex is disulfide bonds

Question 84

when does quaternary structure arise

Answer 84

proteins have MULTIPLE polypeptide chains

read: don’t occur when protein has just ONE polypeptide chain

Question 85

what protein aids in protein folding

describe their type

why called this

Answer 85

chaperone

heat shock

chaperone synthesis UP when subjected to higher temp

Question 86

clinical application of denatured protein (relate to mad cow disease)

-another name for disease

Answer 86

C-Jacob Disease

prion that is a misfolded version of a normal prion -> ab becomes template -> ab ACCUMULATE -> loss function of neurons

Question 87

HH equation predicts what

Answer 87

AA’s side chain charge

Question 88

3 classes of proteins

Answer 88

fibrous
globular
membrane

Question 89

charge of side chains is determined by what

Answer 89

pK

Question 90

what is the only AA with a NH in a ring?

Answer 90

pro-line

Question 91

name two post translational modification

Answer 91

• protein phosphorylation

- glycosylation

Question 92

protein misfolding 2nd example (other than mad cow disease)

Answer 92

AMY…

Alzheimer’s disease