Enzyme Kinectics.docx

CHAPTER 2: ENZYME KINETICS 2.3 In some enzyme- catalyze !eact"on# m$lt"%le m$lt"%le com%le&es a!e "n'ol'e as (ollo)s: (ollo)s: S * E + , ES  , ES  + , ES  2 , E 2 / P * E RE01IRE: e'elo% a !ate e&%!ess"on e&%!ess"on $s"n a. M"c4a M"c4ael el"s "s Ment Menten en a%%! a%%!oa oac4 c4  5. T4e 6!"s Halane a%%!oac4 S781TI7N : rp =

−dcs dcp = = ksCes− k 4 CpCe dt 

dt 

Ceo 9 Ce 9 Ces  Ce 9 Ceo ; Ces !% 9 <3Ces ; <=C%Ceo * <=C%Ces !% 9 , <3 * <=  Ces ; <=C%Ceo < CsCe 9 <2Ces <,Cs,Ceo-Ces 9 <2Ces <CsCeo-<CsCes9<2Ces <2Ces * <CsCes 9 <CsCeo

Ces=

 k  1 CsCeo k 2 + k 1 Cs

Ces=

 CeoCs k 2 +Cs k 1

rp =( k 3 + k  4  4 Cp )

  CeoCs k 2 +Cs  - <=Ceo k 1

(

)

( ks + k 4 Cp ) (CeoCs ) − k 2 Cs (k  4  4 CpCeo) !% 9

k 1

k 2 +Cs k 1

k 3 CeoCs + k  4  4 CeoCpCs − rp =

k 2 k  4  4 CpCeo − k 4 CpCesCs k 1

k 2 +Cs k 1

k 3 CeoCs − rp =

k 2 k 4 CpCeo k 1

k 2 +Cs k 1

(

Ceo k 3 cs − rp =

k 2 k 4 Cp k 1

)

k 2 + Cs k 1

Ce9Ceo9Ces KCs , Ceo-Ces 9 <2Ces K2Ces * <CsCes 9 <CsCeo k 1 CsCeo k 2 +Cs k 1 CsCeo k 2 + Cs k 1 ANS>ER  k 3 CeoCs rmaxCx = k 2  Km + Cs +Cs k 1

T4e 6!"s Halane

−dcs dcp = =k 3 Ces dt 

dt 

Rate ete!m"n"n e?$at"on: −dcs =k 1 CsCe −k 2 Ces− k 3 Ces =0 dt  Ceo 9 Ce * Ces KCs , Ceo-Ces 9<2Ces-<3Ces KCsCeo-<CsCes-<3  Ces9@ KCsCes*<2Ces*<3Ces 9 <CsCeo Ces=

k 1 CsCeo k 1 Cs + k 2 + k 3

Ces=

  CsCeo k 3 + k 2 + Cs k 1

−dcs dcp k 3 CsCeo = = dt  dt  k 3 + k 2 + Cs k 1

!%9

rmaxCs  KmCs

CHAPTER 2: ENZYME KINETICS 2.= Ea"e ,=2 meas$!e t4e "n"t"al !eact"on !ate o( 4y!olys"s o( acetylc4ol"ne ,s$5st!ate 5y o se!$m ,so$!ce o( enzyme an o5ta"ne t4e (ollo)"n ata: S$5st!ate Concent!at"on molB8 @.@@32 @.@@= @.@@2 @.@@D@ @.@@F

In"t"al React"on Rate molB8m"n @. @.=D @.=3 @. @.2@@

E'al$ate t4e M"c4ael"s-Menten <"net"c %a!amete!s 5y em%loy"n ,a t4e 8anm$"! %lot# ,5 t4e 8"ne)ea'e!-6$!< %lot# an ,c t4e Ea"e-Ho(stee %lot.

G"'en: !e(e! to ta5le Re?$"!e: M"c4ael"s-Menten <"net"c %a!amete!s Sol$t"on: a. 8anm$"!  CS r

=

KM

1  +  C S r max r max

&# C S  @.@@32 @.@@= @.@@2 @.@@D@ @.@@F

y# C S /r    @.@@32B@. @.@@=B@.=D @.@@2B@.=3 @.@@D@B@. @.@@[email protected]@@

 5. 8"ne)ea'e!-6$!<  1 r

=

1 r max

 +

KM

1

r max C S

!ma&   9 @.3@D molB8m"n KM 9   F.2 & @-3 molB8

&# 1/C S  B@.@@32 B@.@@= B@.@@2 B@.@@D@ B@.@@F

y# 1/r  B@. B@.=D B@.=3 B@. [email protected]@@

!ma&  9 @.2F2 molB8m"n KM 9   =.3@3 & @-3 molB8

y# r  @. @.=D @.=3 @. @.2@@

!ma&   9 @.2=F molB8m"n KM 9   =.23 & @-3 molB8

c. Ea"e-Ho(stee r = r max - K M

&# r/C S  @.B@.@@32 @.=DB@.@@= @.=3B@.@@2 @.B@.@@D@ @.2@@B@.@@F

r CS

CHAPTER 2: ENZYME KINETICS 2. T4e K M 'al$e o( an enzyme "s 4at "s t4e ma&"m$m !eact"on !ateJ  5. >4at "s t4e concent!at"on o( t4e s$5st!ate a(te! F m"n$tesJ G"'en: K M 9 @.@ molB8

t9F m"n$tes

Cso9 3.=&@-= molB8

@ %e!cent )as cons$me

Re?$"!e: a. ! ma& 5. Cs t9F m"n$tes

Sol$t"on:  K  M  ln

0.01

 Cso +( Cso−Cs )= r max t  Cs

mol ln  L

1 0.9

+ (1 −0.9 ) ( 3.4 x 10 −4 )

r max 9 3.2F=&@-
 mol = r max ( 5 x 60 ) s  L

t9 F m"n$tes  K  M  ln

 Cso +( Cso−Cs )= r max t  Cs

0.01

mol  3.4 x 10 −4  mol  kmol + ( 3.4 x 10− 4 −Cs ) =(3.6254 x 10−6  ) ( 15 x 60 ) s ln  L Cs  L m3 s

Cs9 2.=2 &@-= molB 8

CHAPTER 2: ENZYME KINETICS 2.D A s$5st!ate "s con'e!te to a %!o$ct 5y t4e catalyt"c act"on o( an enzyme. Ass$me t4at t4e M"c4ael"s-Menten <"net"c %a!amete!s (o! enzyme !eact"on a!e: K M 9 @.@3 molB8 ! ma&9 3 molB 8 m"n a. >4at s4o$l 5e t4e s"ze o( a steay-state CSTR to con'e!t F %e!cent o( "ncom"n s$5st!ate ,Cso9 @ molB8 )"t4 a (lo) !ate o( @ 8B4J  5. >4at s4o$l 5e t4e s"ze o( t4e !eacto! "( yo$ em%loy a %l$-(lo) !eacto! "nstea o( t4e CSTR "n %a!t ,aJ

G"'en: K M 9 @.@3 molB8 ! ma&9 3 molB 8 m"n Cso9 @ molB8 9 @ 8B4 SolLn: a  F  1   rmax Cs  = = V  τ  ( Cso −Cs)( Km + Cs )

Re?L: aCSTR  5 PR 

V =

F  rmax Cs (Cso−Cs )( Km+ Cs)

( ) ( )( 10 L

V =

h

(

1 hr 60 min

)

mol  mol ) 0.05 × 10  Lmin  L 10 mol 0.5 mol 0.03 mol 0.5 mol ( − )( + )  L  L  L  L 13

CSTR 9@.2 L

 5 Cso−Cs t  =− Km+ rmax ( Cso Cs ) ln ( ln Cs Cso

( )

10 −0.5 ln

( )  10

t 

=−( 0.03 ) +( 13)(

0.5

ln

( )  10

)

)

0.5

t 9 @.3 m"n t9B 9t 9,@.3 m"n, 4B @ m"n,@ 8B4 PR 9 @.22 8

CHAPTER 2: ENZYME KINETICS 2. A s$5st!ate "s ecom%ose "n t4e %!esence o( an enzyme acco!"n to t4e m"c4ael"s menten e?$at"on )"t4 t4e (ollo)"n <"net"c %a!amete!s: grams liter

Km9@ Rma& 9

7

g  L −min

I( )e o%e!ate t)o -8 CSTR n se!"es at steay state# )4t )"ll 5e t4e concent!at"on o( s$5st!ate lea'"n t4e secon !eacto!J T4e (lo) !ate "s @.F 8Bm"n. T4e "nlet s$5st!ate concent!at"on "s F@B8 an t4e enzyme concent!at"on "n t4e t)o !eacto!s "s ma"nta"ne "n t4e sa 'al$e all o( t4e t"me. Is t4e t)o !eacto! system mo!e e(("c"ent t4an one !eacto! )4ose 'ol$me "s e?$al to t4e s$m o( t4e t)o !eacto!sJ GIEN: Cso F@B8

Km9 @B8

!ma&9 B8-m"n 9 @.F 8Bm"n RE01IRE: a. Cs2  5. Is t)o !eacto! mo!e e(("c"ent t4an  !eacto! )"t4 'ol$me 9 28

Cs9-
rmax Csτ  Cso −Cs

o! t4e ("!st !eacto! sol'e Cs

(  ) 7g

 L

(Cs 2 ) (

1l 0.5 g

)

min ❑

Cs9 ,-@B8 * 50 g

 L

−Cs 1

Cs9 3D.DF@B8 At t4e secon !eacto!  cso 93D.DF@B8

(  ) 7g

 L

Cs29 ,-@B8 *

(Cs 2 ) (

1l 0.5 g

)

min ❑ 38.8650 −Cs 2

Cs29 2D.F@2@B8 >4"c4 "s mo!e e(("c"ent

O con'e!s"on 9

Cso −Cs x 100 Cso

50 −28.5012

Ocon'e!s"on 9

50

x 100

Ocon'e!s"on 9 =2. O ,(o! 2 CSTR IN SERIES o!  CSTR )"t4 'ol$me 928

(  )( 7g

 L

Cs 2 ) (

2l 0.5 g

)

min ❑

 Cs9 ,-@B8 * 50 g

 L

−Cs 1

Cs9 2.F B8

%conversion =

50 −29.1517 50

x 100

Con'e!s"on 9 =. OO , (o!  CSTR )"t4 28 'ol$me

CHAPTER 2: ENZYME KINETICS 2.= Ea"e ,=2 meas$!e t4e "n"t"al !eact"on !ate o( 4y!olys"s o( acetylc4ol"ne ,s$5st!ate 5y o se!$m ,so$!ce o( enzyme "n t4e a5sence an %!esence o( %!ost"m"ne ,"n4"5"to!# .F & @- molB8 an o5ta"ne t4e (ollo)"n ata: S$5st!ate Concent!at"on ,molB8 @.@@32 @.@@= @.@@2 @.@@D@ @.@@F

In"t"al React"on Rate A5sence o( P!ost"m"ne @. @.=D @.=3 @. @.2@@

a. Is %!ost"m"ne com%et"t"'e o! noncom%et"t"'e "n4"5"to!J

Rate ,molB8.m"n P!esence o( P!ost"m"ne @.@F @.@ @.@ @. @.2F

 5. E'al$ate t4e M"c4ael"s-Menten <"net"c %a!amete!s "n t4e %!esence o( "n4"5"to! 5y em%loy"n t4e 8anm$"! %lot. 0.08 f(x) = 2. 99x + 0.05

0.07 0.06 0.05

Cs/r

f(x) = 3. 31x + 0.02

0.04 0.03 0.02 0.01 0 0

0

0

0.01

0.01

0.01

0.01

Cs Linear ()

a. P!ost"m"ne "s a com%et"t"'e "n4"5"to!.  5. R ma&9 Bm 9 @.33= ,)"t4 "n4"5"to! concent!at"on R ma&9 Bm 9 @.3@D ,no "n4"5"to! concent!at"on K m 9 5Rma& 9 F.==&@-3 K I 9 5Rma& 9 @.@=

Linear ()

0.01

0.01

CHAPTER 2: ENZYME KINETICS 2. T4e "n"t"tal !ate o( !eact"on (o! t4e enzymat"c clea'ae o( eo&y$anos"ne t!"%4os%4ate )as meas$!e as a ($nct"on o( "n"t"al s$5st!ate concent!at"on as (ollo)s ,Ko!n5e! et al.# . 6"ol. C4em.# 233# F# FD: G"'en: S$5st!ate Concent!at"on In"t"al React"on Rate μmol/L μmol/L min . @.3@ 3.F @.2F . @. a. Calc$late t4e M"c4ael"s-Menten constants o( t4e a5o'e !eact"on.  5. >4en t4e "n4"5"to! )as ae# t4e "n"t"al !eact"on !ate )as ec!ease as (ollo)s: S$5st!ate μmol/L . 3.F .

In4"5"to!  Μmol/L = = =

In"t"al React"on Rate Μmol/L min @. @.@D @.@

Is t4"s com%et"t"'e "n4"5"t"on o! noncom%et"t"'e "n4"5"t"onJ $st"(y yo$! ans)e! 5y s4o)"n t4e e((ect o( t4e "n4"5"to! !a%4"cally. QCont!"5$te 5y P!o(esso! Ga!y . 6ennett# T4e $n"'e!s"ty o( Toleo# Toleo# 7H Re?$"!e: MM constants

>"t4o$t In4"5"to! a 8anm$"!  C s k m r

=

r max

+

1

r max

(C s )

! 9 @.D molB8-m"n !,ma& 9 @.=2F molB8-m"n
=

r max

+

(

r max C s

)

! 9 @. molB8-m"n

>"t4 "n4"5"to!   a 8anm$"!  C s k m r

=

r max

+

1

r max

(C s )

! 9 @. molB8-m"n !,ma& 9 @.F molB8-m"n
=

r max

+

(

r max C s

)

! 9 @.D molB8-m"n

!,ma& 9 @.=F molB8-m"n
!,ma& 9 @.= molB8-m"n
! 9 @.D molB8-m"n !,ma& 9 @.=33 molB8-m"n
! 9 @.F= molB8-m"n !,ma& 9 @.=F molB8-m"n
T4e!e(o!e# 8anm$"! "sot4e!m 5est ("t t4e ata )"t4 ! 9 @.D (o! )"t4o$t"n4"5"to!.

CHAPTER 2: ENZYME KINETICS 2.D T4e enzyme# cat4e%s"n# 4y!olyzes 8-l$tamyl-8-ty!os"ne to ca!5o5enzo&y-8-l$tam"c ac" an 8-ty!os"ne. It 4as 5een (o$n ,!antz an Ste%4enson# J.

Biol. Chem.#

# 3F# = t4at

t4e l$tam"c ac" (o!me "n t4e 4y!olys"s# "n4"5"ts ,com%et"t"'ely t4e %!o!ess o( t4e !eact"on  5y (o!m"n a com%le& )"t4 cat4e%s"n. T4e co$!se o( t4e !eact"on "s (ollo)e 5y a"n ty!os"ne eca!5o&ylase )4"c4 e'ol'es C72.

S$5st!ate  μ moleBm8

In4"5"to!   μ moleBm8

Rate o( C72 Gene!at"on  μ moleBm8.m"n

=. =. =. @.D @.D @.D [email protected] [email protected] [email protected]

@ .F [email protected]@ @ .FD [email protected]@ @ .FD [email protected]

@.@=3= @.@2DF @.@33 @.@3 @.@F2 @.@2 @. @.@@ @.@FD

Calc$late ,a t4e 'al$e o( M"c4ael"s-Menten constants o( t4e enzyme# K s# an ,5 t4e "ssoc"at"on constant o( enzyme-"n4"5"to! com%le&# K I. 600 500

f(x) = 6 .41x + 329.1 R² = 0.99

400 300

f(x) = 6 .51x + 137.08 f(x) R² ==16.37x + 80.2 R² = 1

200 100 0 0

5

10

a.  I9@ Rma& 9 Bm 9 @.F Ks 9 5Rma& 9 2.FD3

15

20

25

30

35

 I 9 [email protected]@ Rma& 9 Bm 9 @.F@ KI 9  5Rma& 9 F.33D

 I9 .FD Rma& 9 Bm 9 @.F3 K I 9 5Rma& 9 2.@2@ CHAPTER 2: ENZYME KINETICS  AITI7NA8 PR768EM 4tt%s:BB))2.c4em"st!y.atec4.e$Bl)2B5Co$!seUIn(o!mat"onB3FBst$Ucom%Bc4a%2U.%(  T4e (ollo)"n ata )e!e o5ta"ne (o! t4e !eact"on A + 6# catalyze 5y t4e enzyme Aase. T4e !eact"on 'ol$me )as m8 an t4e stoc< concent!at"on o( A )as F.@mM. Se'en se%a!ate !eact"ons )e!e e&am"ne# eac4 conta"n"n a "((e!ent amo$nt o( A. T4e !eact"ons )e!e "n"t"ate 5y a"n 2.@V8 o( a @VM sol$t"on o( Aase. A(te! F m"n$tes# t4e amo$nt o( 6 )as meas$!e. React"on  2 3 = F  

ol$me o( A ae,V8 D @ F 2@ =@ @ @@

Amo$nt o( 6 %!esent at F m"n$tes ,nmoles 2 2 3 =3 F 2 

,a Calc$late t4e "n"t"al 'eloc"ty o( eac4 !eact"on ,"n $n"ts o( VM.m"n- ,5 ete!m"ne t4e K M an ma& o( Aase (!om a 8"ne)ea'e!-6$!< %lot. ,c Calc$late < cat. S78WN: ,a Xo 9 ,2nmolBFm"n B ,.@m8 & ,@3 m8B8 & ,.@@ VmolBnmol 9 5.2 µM.min-1 React"on  2 3 = F  

Xo,VM.m"n- F.2 F.D .D D. .2 2.= =.2

,5 Calc$late QS (o! eac4 !eact"on QA 9 ,.@@Dm8,FmM,m8 & ,@@@ VMB mM 9 =@ VM React"on

QS VM

,& BQS VM-

 X,VM.m"n-

 2 3 = F  

=@ F@ F @@ 2@@ 3@@ F@@

@.@2F @.@2 @.@33 @.@@ @.@@F @.@@33 @.@@2

F.2 F.D .D D. .2 2.= =.2

y-"nt 9 B'ma& 9 @.@ Vmax = 16 µM/min

&-"nt 9 -BK M 9 B@.@2 K M = 83 µM

,c Calc$late QET 9 ,@.@@2m8,@ VM Aase B m8 9 @.@2 VM K cat 9 ma& B QET 9 , VMBm"n B @.@2 VM K cat= 800 /min

,y BX ,m"n-B VM @.2 @.2 @.2D @.@ @.@D @.@D @.@@

CHAPTER 2: ENZYME KINETICS  AITI7NA8 PR768EM T4e stat"n !$ lo'ast"an 4el%s lo)e! c4oleste!ol le'el 5y acts as com%et"t"'e "n4"5"to! on t4e HMG-CoA !e$ctase enzyme# )4"c4 no!mally catalyzes an ea!ly ste% "n t4e 5"osynt4es"s  %at4)ay c4oleste!ol Re?$"!e: a 7n a s"nle !a%4# s
b)

CHAPTER 2: ENZYME KINETICS  AITI7NA8 PR768EM Pest"c"e "n4"5"t"on on enzyme 4as 5een !e%o!te# )4"c4 ca$se t4e enzyme act"'"ty to !e$ce. T4e collecte ata )"t4 an )"t4o$t "n4"5"t"on a!e %!esente 5elo). ete!m"ne t4e ty%e o( "n4"5"t"on an t4e K I (o! t4e "n4"5"to!. QS# M Rate QI9@# MBm"n@3 Rate QI92@nM# MBm"n@3

3.3@@-= F

F.@@@-= 

.@@-= DD

.F@-3 2=

2.2@-3 =

3

=



@3

2F

1

Ass$m"n 8"ne)ea'e!-6$!< E?$at"on:

 =

V 

K m

1

V max S

+

1

V max

QI9@: 8"ne : y9=.32@@@-&*F.@@33@- 1 -

V  max 9F.@@33@

V max 9 #DD.@D MBm"n

 K m

- V  max 9=.32@@@

 K m 9 D.3=3@-= M

QI92@nM: 8"ne 2: y9.=@F@-&*F.@@- 1 -

V  max 9F.@@

V max 9 3#=.@ MBm"n

 K mapp V max

-

9.=@F@

 K mapp 9 .==33@-3 M

 K m

[ ] I   K  I 

1+

= K mapp   D.3=3@-= M

 K  I  9 2.D@@-D M

Ty%e o( In4"5"t"on: C7MPETITIE  K  I  9 2.D@@-D M

[

−9

1+

20 × 10

 K  I 

]

 M 

=¿ .==33@-3 M

CHAPTER 2: ENZYME KINETICS  AITI7NA8 PR768EM A ce!ta"n !eact"on 4as an act"'at"on ene!y o( 2F <Bmol. T4e !ate "s @.33Bs at FF C. ete!m"ne t4e 'al$e o( t4e s%ec"("c !ate constant at @@ C. GIEN: Ea92F <Bmol T9FF C  K FF C 9 @.33

RE01IRE: T29@@ C  K @@ C 9 J

S781TI7N: −  a

 K =A

e  !" 

T9FF C: −125 k# / mol 8.314 k$

@.339 A e kmolK  ( 55+273 ) K  

 A=2.@@

T29@@ C: −125 k# / mol

 K 100ºC

8.314 k$

9 ,2.@@ e kmolK  ( 100+ 273 ) K 

 K 100ºC 9D2.DD2Bs

CHAPTER 2: ENZYME KINETICS  AITI7NA8 PR768EM T4e enzyme ca!5o&y%e%t"ase catalyzes t4e 4y!olys"s o( %e%t"es. T4e (ollo)"n !es$lts )e!e o5ta"ne )4en t4e !ate o( enzymolys"s o( C6GP )as mon"to!e )"t4o$t "n4"5"t"on at QC6GP@9 @.3 molBm3. C&'( mo ) −2 dm 10 Rate# mol

.2F

3.D=

F.D

.3

@.3D

@.=

@.DF

.@@

3

dm  s

>4en 2.@@-3 molBm3 %4enyl 5$ty!ate "on )as ae to t4e sol$t"on# t4e !es$lts )e!e: C&'( mo ) −2 dm 10 Rate# mol

.2F

2.F@

=.@@

F.F@

@.2

@.3@

@.3==

@.F=D

3

dm  s

In a se%a!ate e&%e!"ment# t4e e((ect o( F.@@-2 molBm3 5enzoate "on )as mon"to!e an t4e !es$lts )e!e: C&'( mo ) −2 dm 10 Rate# mol

.F

2.F@

F.@@

@.@@

@.D3

@.2@

@.23

@.2=

3

dm  s

ete!m"ne t4e ty%e o( "n4"5"t"on an K I (o! %4enyl 5$ty!ate an 5enzoate "on.

S781TI7N: 1

Ass$m"n 8"ne)ea'e!-6$!< E?$at"on: 8"ne : )"t4o$t "n4"5"t"on

 =

V 

K m

1

V max S

+

1

V max

 [email protected]2*@.@2& V max 9 .23@ molBm3.s  K m 9 @.@2 molBm3

8"ne 2: )"t4 %4enyl 5$ty!ate "on  y9.@FD*@.@@& V max 9 @.D=F molBm3.s  K m 9 @.@F2 molBm3 8"ne 3: )"t4 5enzoate "on y93.F*@.@3@@& V max 9 @.2F molBm3.s  K m 9 D.@22D molBm3

TYPE 7 INHI6ITI7N:

 P4enyl 6$ty!ate Ion: C7MPETITIE  6enzoate Ion: 1NC7MPETITIE

7R PHENY8 61TYRATE I7N:  K m

[ ] I   K  I 

1+

= K mapp 

[

0.0266 1 +

 K  I   9 .3@-3 molBm3

−3

2.0 × 10

 K  I 

]

=0.0592

7R 6ENZ7ATE I7N: V maxapp=

V max I  1+  K  I 

¿  @.2F

 K  I   9 @.@3D molBm3

  1.2306 −2

1+

5.0 × 10

 K  I