1) Recognition of splicing site
剪切位点识别
2) 5 splice sites identification
5'剪接位点识别
4) cleavage site
剪切位点
1.
The main purpose of this paper is to introduce the characters of protein signalpeptide, then discuss and try to identify the signal peptide and its cleavage site withmathe.
本论文的主要目的在于介绍蛋白质信号肽的特征和性质,并在此基础上利用数学方法对信号肽和信号肽的剪切位点进行讨论和预测。
2.
Finally,we predicted 258 miRNA:target binding partners, and identified the cleavage sites of six out of ten miRNA targets by modified 5\' RACE.
另外,本研究利用Hitsensor软件,预测出63个miRNA与83个靶基因之间的258对互作,并对其中10个互作对进行了验证,证实了其中的6个互作对,并确定了靶基因的剪切位点。
5) splice site
剪切位点
1.
Based on the conservation of nucleotides around the splice sites,the compositional feature and the existence of reading frame with 3-periodicity in coding sequence, the complete sequences of the eukaryotes genomes can be grouped into three kinds: introns, exons and intergenic DNA.
基于剪切位点附近序列的保守性,序列的组分特征和编码序列阅读框存在三周期性,三种序列的标准离散源由序列上64个三联体的概率和5′端与3′尾剪切位点附近(共30位点)上4个碱基的概率,共184个参数构成。
2.
Based on the conservation of nucleotides around splice sites,and the compositional feature and the existence of reading frames with 3-periodicity in a coding sequence,the complete sequences of the 5 model species genomes are grouped under three kinds:intron,exon and intergenic DNA.
基于核酸序列在剪切位点上保守性、组分的不同和编码序列阅读框架的3周期性,模式生物全基因组序列分为外显子、内含子和基因间序列三类。
3.
Based on the conservation of nucleotides around splice site, the compositional feature and reading frame with 3-periodicity in coding sequence, the three kinds of the sequences are predicted by use of the least increment of diversity (LID), in which different parameters of the diversity sources were chosen.
基于基因组的全序列剪切位点附近序列的保守性,序列的组分特征和编码序列阅读框存在三周期性,在对序列进行长度分布统计之后,通过不同的参数选取方法构建离散源,利用最小离散增量方法对序列类型进行预测,比较得到离散量和离散源的参数选择之间的最优化结合点。
6) Splice donor sites prediction
剪接供体位点识别
补充资料:百分位点
分子式:
CAS号:
性质:又称百分位点。若概率0<p<1,随机变量X或它的概率分布的分位数Za。是指满足条件p(X>Za)=α的实数。如t分布的分位数表,自由度f=20和α=0.05时的分位数为1.7247。
CAS号:
性质:又称百分位点。若概率0<p<1,随机变量X或它的概率分布的分位数Za。是指满足条件p(X>Za)=α的实数。如t分布的分位数表,自由度f=20和α=0.05时的分位数为1.7247。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条