Enzymes Essays COPY

Question 1

What example of SBDD is used for “predicting the effect on the system”?

Answer 1

Glycosylation by golgi alpha-mannosidase

Question 2

What example of SBDD is used for use of homologs?

Answer 2

ACE and carboxypeptidase A, because both metalloproteases. But ACE turned out to be more similar to neurolysin.

Question 3

Why are catalytic binding modules of cellulase helpful?

Answer 3

Insoluble substrate less likely to collide with correct orientation (thread through CBH I correctly)

Question 4

What do beta-glucosidases do?

Answer 4

Cleave free beta-glucosidases

Question 5

When is indirect charging of tRNA needed?

Answer 5

Aspartic and Glutamic acid are converted to Asparagine and Glutamine.

Question 6

What are the modules of interest in cellulases

Answer 6

Catalytic modules, cellulose binding modules, linkers, cohesins and dockerin modules

Question 7

What is the difference in serine proteases structure?

Answer 7

Chymotrypsin-like = 2 beta-barrels Subtilisin-like = large beta-sheet with several alpha-helices

Question 8

What is the mechanism for SP/AChE cleavage?

Answer 8

G+H low barrier H bond, raise pKa and basicity, attacks S S O- attacks substrate = tetrahedral oxyanion. H proton attacked, form acyl intermediate, release product. Repeat with H2O, release second product.

Question 9

When are editing domains needed?

Answer 9

Only for amino acids which regularly get mischarged: Ile, Leu and Val. They are a defence mechanism.

Question 10

What is the properties of cellulose?

Answer 10

Highly ordered crystalline repeats of beta-glucose, with intermittent regions with less order.

Question 11

What is the linker of cellulases used for?

Answer 11

Flexibly joins CM to other modules, aiding positioning

Question 12

What are the topics of the SP and ACE essay?

Answer 12

Mechanism of action, optimisation for substrates, inhibition, accessibility, convergent and divergent evolution.

Question 13

How is inhibition of SP regulated? Why?

Answer 13

Serpins, prevent protease activity in unwanted areas.

Question 14

How is type of evolution assessed?

Answer 14

Sequence identity

Question 15

What the are modules of interest in aminoacyl tRNA synthetases?

Answer 15

Direct catalytic modules, extra indirect catalytic modules, modules for extra amino acids conversion, tRNA recognition, editing domains, MSC and extra functions.

Question 16

Which domains recognise tRNA?

Answer 16

Acceptor stem binding domain and Anti codon binding domain.

Question 17

Why is COX enzyme an example of SBDD “choosing the right target”?

Answer 17

COX turn arachidonic acid to prostanoids (for inflammation and pain). COX1 low levels in GI, NSAIDS. COX2, extra domain, only in cellular stress, Vioxx and celecoxib.

Question 18

What are the limits of SBDD?

Answer 18

Must know structure, doesn’t predict effect on system, doesn’t identify which ligands to take forward. And must know which structure you want to target.

Question 19

What do cellulases do?

Answer 19

Hydrolyse the 1,4-beta-D-glycosidic linkages in cellulose

Question 20

Why is AChE active site not easily accessible?

Answer 20

Its at the bottom of a 20A gorge; lined with 14 aromatic amino acids.

Question 21

What assumption of ACE active site was made?

Answer 21

Zn, H bonding region, and positive residue.

Question 22

What example of SBDD is used for needing to know the structure?

Answer 22

Lysozyme easy to crystallise ACE not easy

Question 23

Why are there many catalytic domains of aaRSs

Answer 23

Because amino acids structure varies.

Question 24

What is the class I for direct aminoacylation domain?

Answer 24

2’ carbon, which moves by transesterification. Conserved Rossman fold, with HIGH and KMSKS motifs.

Question 25

What was good and bad about using homologs for ACE inhibitors.

Answer 25

Allowed life saving drugs to be developed cheaply. But had side effects like dry cough and sore throat.

Question 26

Why is having to choose the correct structure a limitation to SBDD?

Answer 26

Many proteins are present in systems, choosing the right one is hard.

Question 27

Give an example of a cellulase linker

Answer 27

Fibronectin type III

Question 28

Why is having to choose the correct target a benefit to SBDD?

Answer 28

Unlike LBDD, you can target domains specific to certain isoforms

Question 29

What is Bivalirudin?

Answer 29

A thrombin inhibitor, doesnt target other serine proteases. Binds reversibly to free and clot-bound thrombin.

Question 30

How is AChEs lack of accessibility overcome?

Answer 30

Proposed back door mechanism, releasing products. Kineticist say it isn’t needed.

Question 31

Why is ACE not easy to crystallise?

Answer 31

Glycosylated and membrane bound

Question 32

What does cellulases bind to with their dockerin modules?

Answer 32

Scaffoldins, which can bind to other scaffoldins.

Question 33

What examples of convergent evolution are there?

Answer 33

AChE with gorge against chymotrypsin-like SPs against subtilisin-like SPs

Question 34

Why is ACE enzyme an example of SBDD “choosing the right target”?

Answer 34

Somatic (2 domain) and Germinal (C domain). C = cleaves angio, bp control. No increase in bradykinin causing an angioedema. N = Cleave AcSDKP and haemoregulatory hormone.

Question 35

How do serpins work?

Answer 35

A prime hydrolysis target, the reactive centre loop, has tension. Moves to relaxed state once acyl-intermediate is formed, preventing its release.

Question 36

What examples of divergent evolution?

Answer 36

Amongst chymotrypsin-like serine proteases, a high sequence identity. Difference in the binding pocket. Also cysteine proteases may have diverged.

Question 37

Give an example of SP specificity

Answer 37

Thrombin cleaves proteins such as fibrinogen for blood coagulation.

Question 38

What example of SBDD is used for saving money?

Answer 38

Cellulase not same as AChE (active site and gorge)

Question 39

What is indirect charging of tRNA?

Answer 39

Charging incorrect AA to tRNA, which is then transamidated by amidotransferase to give the correct AA.

Question 40

How can glycosylation pathways be imbalanced?

Answer 40

Too much alpha-mannosidase activity, too many complex sugars = cancer. Too little, too many hybrid = lupus-like autoimmunity.

Question 41

Why is knowing which drug to screen a problem is SBDD?

Answer 41

Knowing pharmacophores doesnt mean you know which potential inhibitors will be a good picture.

Question 42

What is the purpose of a multisynthetase complex?

Answer 42

Promotes activity, channelling product to ribosomes. Localise, stabilise and act as a reservoir to regulate non-canonical activities.

Question 43

What is the benefit to many catalytic modules?

Answer 43

Can target complex substrate from more angles = more yield.

Question 44

What is the class II for direct aminoacylation domain?

Answer 44

3’ carbon. Less conserved, unrelated beta-sheets.

Question 45

What example of SBDD is used for knowing which drug to screen?

Answer 45

LBDD: Hirudin from leeches to Bivalirudin, and Brazillian snake venom to captopril.

Question 46

Why are Serine Proteases comparable to AChE?

Answer 46

Same catalytic triad (Ser, His, Carboxy acid - Glu) for hydrolysis.

Question 47

What extra functions are aaRS responsible for?

Answer 47

Metabolism, angiogenesis, and Immune functions.

Question 48

What are the benefits to SBDD?

Answer 48

Save money, use homologs, able to choose target

Question 49

What is the structure of cohesins and dockerins?

Answer 49

Highly conserved and species specific

Question 50

Give two examples of choosing the right target in SBDD.

Answer 50

COX enzymes and ACE enzymes.

Question 51

What do the editing domains do?

Answer 51

Kinetic proof reading, pre or post acylation (in solution or selective release).

Question 52

How does catalytic binding module of cellulase help?

Answer 52

Disrupts crystalline structure and brings CMs closer

Question 53

How have SPs optimised for their substrates?

Answer 53

Binding pocket for n-1 residue Trypsin = positive residue Elastase = small neutral residue

Question 54

How does the catalytic binding module of cellulases bind?

Answer 54

Binds with loose, transient bonds using exposed aromatics spread one glucose module apart.

Question 55

What does CBH I do?

Answer 55

Hydrolyse the reducing end of cellulose

Question 56

What is the role of cohesins and dockerins?

Answer 56

Tether modules together, increasing proximity and activity, allows inclusion of non-cellulases. SYNEGRY

Question 57

What do endoglucanases do?

Answer 57

Cleave in less ordered regions to expose more ends

Question 58

Using homologs allowed what to be developed?

Answer 58

Captopril, Elanapril, and Lisinopril.

Question 59

Why have some organisms got more domains for charging?

Answer 59

Expand from the naturally occurring AAs: formyl-methionine, selenocysteine and pyrrolysine. Converts from methionine, serine and lysine.

Question 60

Why is tRNA recognition important?

Answer 60

Differentiate between the 64 codons, and anticodon binding domain provides stability for transport.

Question 61

What are the different catalytic modules of cellulases?

Answer 61

Cellobiohydrolase (CBH I and II), Endoglucanase, Beta-glucosidase