the set of PROTEins coded by a GenOME"에서 비롯되었다. 최근, Proteomics가 대두된 이유는 첫째, mRNA의 발현으로 단백질의 발현을 예측할 수 없으며, 둘째, 단백질이 변형(methylation, phosphorylation 등등)된 것을 gene sequence에서는 알 수 없으므로 proteome을 연구하게 된 것이다.
Proteomics
게놈이 사람이 지닌 모든 유전
3. Structure
Figure 1. Structure of icosahedral capsid
The virus particle (25-30 nm) has and icosahedral capsid made of protein(figure 1), without envelope, containing a single-strand of ribonucleic acid(ssRNA) containing a positive encoding of its genome.[3] This positive-sense ssRNA is genome of approximately 8,400 nucleotides.[4] The virus capsid is made up from 60 copies each of four virus-
Regulation of IT Risk
In order to regulate the IT risk, governments work to address threat to computer crime. For example, representatives of 29 countries - including Canada, Japan and the U.S. – signed the Council of Europe Cybercrime convention in 2001. The convention deals with substantive and procedural cybercrime law. The substantive defines the following activities as crimina
Recent Situation
“ internal information security attacks are outgrowing external
attacks at the world’s largest financial institutions”
(The Global Security Survey): Only 20% of the respondents in security survey strongly
believed that Information security should be a CEO-level priority
Ernst and Young(2004)
2) IT liability risk management
: The corporations should install f
3. Dye-termination sequencing
Utilizes labelling of the chain terminator
Each of the four dideoxynucleotide chain
terminators is labelled with fluorescent dyes
Now being used for the vast majority of
sequencing projects
Challenge: differences in the incorporation of the dye-labelled chain terminators
into the DNA fragment
Blast
The Basic Local Alignment Search Tool