no birds soars too high, if he soars with his own wings....
bagi kengkawan ataupun pembaca pembaca setia blog gua yg tatau lagik.... 26hb yg lepas gua telah pun selesai belajo phd kat sini... jadik bagi sesape yg tatau aper benda yg gua buat dan beminat nak tau.. gua kasik tampal skit abstrak thesis gua.. kalo ade sesape yg beminat nak sponsor minimum RM200K utk gua meneruskan kajian gua nih adalah amat dialu-alukan.... kekekekekkekekkeke.. bole set up lab sendiri buat research sendiri tanpa perlu makan gaji... kekekekekekekekekekekkekek
Information processing applications driven by self-assembly and conformation dynamics of nucleic acids are possible. These underlying paradigms (self-assembly and conformation dynamics) are essential for natural information processors as illustrated by proteins. A key advantage in utilising nucleic acids as information processors is the availability of computational tools to support the design process. This provides us with a platform to develop an integrated environment in which an orchestration of molecular building blocks can be realised. Strict arbitrary control over the design of these computational nucleic acids is not feasible. The microphysical behaviour of these molecular materials must be taken into consideration during the design phase. This thesis investigated, to what extent the construction of molecular building blocks for a particular purpose is possible with the support of a software environment. In this work we developed a computational protocol that functions on a multi-molecular level, which enable us to directly incorporate the dynamic characteristics of nucleic acids molecules. To allow the implementation of this computational protocol, we developed a designer that able to solve the nucleic acids inverse prediction problem, not only in the multi-stable states level, but also include the interactions among molecules that occur in each meta-stable state. The realisation of our computational protocol are evaluated by generating computational nucleic acids units that resembles synthetic RNA devices that have been successfully implemented in the laboratory. Furthermore, we demonstrated the feasibility of the protocol to design various types of computational units. The accuracy and diversity of the generated candidates are significantly better than the best candidates produced by conventional designers. With the computational protocol, the design of nucleic acid information processor using a network of interconnecting nucleic acids is now feasible.
1 Comments:
walaupun dh hampir stgh bulan.. congratulaions aku ucapkan... tp aku tak paham langsung la ko nya abstract.. so tak jd la nk invest 200k..
Post a Comment
<< Home