BioHackersNet|
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Comment:
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Size: 508
Comment:
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| Deletions are marked like this. | Additions are marked like this. |
| Line 8: | Line 8: |
| plot [0:20]x/(2+x) | plot [0:20]x/(2+x) |
| Line 12: | Line 12: |
| $$ v = \frac{d[S]}{dt} = \frac{v_{max}[S]}{[S]+K_{m}} $$ | $$ v = \frac{d[S]}{dt} = \frac{v_{max}[S]}{[S]+K_{m}} $$ |
가장대표적인 EnzymeKinetics관련 식
![set xtic("Km"2)
set xlab "conc. of substrate. [S]"
set ylab "velocity. v"
set nokey
plot [0:20]x/(2+x)](/wiki/MichaelisMentenEquation?action=AttachFile&do=get&target=a74e4bc44e09c903186ad3c752e91c130a469590_gnuplot.png "set xtic(\"Km\"2)
set xlab \"conc. of substrate. [S]\"
set ylab \"velocity. v\"
set nokey
plot [0:20]x/(2+x)")
![$$ v = \frac{d[S]}{dt} = \frac{v_{max}[S]}{[S]+K_{m}} $$](/wiki/MichaelisMentenEquation?action=AttachFile&do=get&target=2f9862d16d47548f99daf7caa9bc5452af559adc_latex.png "$$ v = \frac{d[S]}{dt} = \frac{v_{max}[S]}{[S]+K_{m}} $$")
여기서, Vmax는 반응의 최대속도를 의미하며, Km은 Vmax의 1/2에 도달할때의 substrate의 농도를 의미한다.
따라서 그래프에 표시된 Km이, Vmax 1의 0.5 부분에 있다.