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Molecule Parameter List for RCC1-RanGTP | The statistics table lists the distribution of a molecule acting either as a substrate, product, enzyme or as a molecule within the network.
The text color of a molecule is highlighted by  color. | | Statistics |
Accession and Pathway Details | |
| Accession Name | Accession No. | Accession Type | Pathway Link | | RanGTPase | 70 | Network |
Shared_Object_RanGTPase, Nucleus, Cytoplasm | | This model represents a concentration gradient of RanGTP across the nuclear envelope. This gradient is generated by distribution of regulators of RanGTPase. We have taken a log linear plot of graphs generated by GENESIS and compared with the experimental graphs. |
RCC1-RanGTP acting as a Molecule in RanGTPase Network
| Name | Accession Name | Pathway Name | Initial Conc.
(uM) | Volume
(fL) | Buffered | | RCC1-RanGTP | RanGTPase
Accession No. : 70 | Nucleus
Pathway No. : 305 | 0 | 12000 | No | | RCC1-GTP.Ran Ran-GTP complex bound to RCC1 Nuclear volume = 1.2 pL = 1.2e-15 m^3 Footnote for Table 2 Gorlich D et al (2003) EMBO J 22(5):1088-1100 |
RCC1-RanGTP acting as a Substrate in a reaction in RanGTPase Network
| Kd is calculated only for second order reactions, like nA+nB <->nC or nA<->nC+nD, where n is number and A,B,C,D are molecules, where as for first order reactions Keq is calculated.
Kd for higher order reaction are not consider. |
RCC1-RanGTP acting as a Product in a reaction in RanGTPase Network
| Kd is calculated only for second order reactions, like nA+nB <->nC or nA<->nC+nD, where n is number and A,B,C,D are molecules, where as for first order reactions Keq is calculated.
Kd for higher order reaction are not consider. |
| Database compilation and code copyright (C) 2022, Upinder S. Bhalla and NCBS/TIFR
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