In the field of proteomics because of more data is added, the computational methods need to be more
efficient. The part of molecular sequences is functionally more important to the molecule which is more
resistant to change. To ensure the reliability of sequence alignment, comparative approaches are used. The
problem of multiple sequence alignment is a proposition of evolutionary history. For each column in the
alignment, the explicit homologous correspondence of each individual sequence position is established. The
different pair-wise sequence alignment methods are elaborated in the present work. But these methods are
only used for aligning the limited number of sequences having small sequence length. For aligning
sequences based on the local alignment with consensus sequences, a new method is introduced. From NCBI
databank triticum wheat varieties are loaded. Phylogenetic trees are constructed for divided parts of
dataset. A single new tree is constructed from previous generated trees using advanced pruning technique.
Then, the closely related sequences are extracted by applying threshold conditions and by using shift
operations in the both directions optimal sequence alignment is obtained.
%0 Journal Article
%1 noauthororeditor
%A Singh1, Harmandeep
%A Prof.2, Er. Rajbir Singh Associate
%A Kaur3, Navjot
%D 2013
%J International Journal of Computer Science, Engineering and Information Technology (IJCSEIT)
%K Alignment Bank Data Local Multiple NCBI Phylogenetic Sequence Tree
%N 1
%P 01-12
%R 10.5121/ijcseit.2013.3101
%T IMPLEMENTING HIERARCHICAL CLUSTERING METHOD FOR MULTIPLE SEQUENCE ALIGNMENT AND PHYLOGENETIC TREE CONSTRUCTION
%U http://airccse.org/journal/ijcseit/papers/3113ijcseit01.pdf
%V 3
%X In the field of proteomics because of more data is added, the computational methods need to be more
efficient. The part of molecular sequences is functionally more important to the molecule which is more
resistant to change. To ensure the reliability of sequence alignment, comparative approaches are used. The
problem of multiple sequence alignment is a proposition of evolutionary history. For each column in the
alignment, the explicit homologous correspondence of each individual sequence position is established. The
different pair-wise sequence alignment methods are elaborated in the present work. But these methods are
only used for aligning the limited number of sequences having small sequence length. For aligning
sequences based on the local alignment with consensus sequences, a new method is introduced. From NCBI
databank triticum wheat varieties are loaded. Phylogenetic trees are constructed for divided parts of
dataset. A single new tree is constructed from previous generated trees using advanced pruning technique.
Then, the closely related sequences are extracted by applying threshold conditions and by using shift
operations in the both directions optimal sequence alignment is obtained.
@article{noauthororeditor,
abstract = {In the field of proteomics because of more data is added, the computational methods need to be more
efficient. The part of molecular sequences is functionally more important to the molecule which is more
resistant to change. To ensure the reliability of sequence alignment, comparative approaches are used. The
problem of multiple sequence alignment is a proposition of evolutionary history. For each column in the
alignment, the explicit homologous correspondence of each individual sequence position is established. The
different pair-wise sequence alignment methods are elaborated in the present work. But these methods are
only used for aligning the limited number of sequences having small sequence length. For aligning
sequences based on the local alignment with consensus sequences, a new method is introduced. From NCBI
databank triticum wheat varieties are loaded. Phylogenetic trees are constructed for divided parts of
dataset. A single new tree is constructed from previous generated trees using advanced pruning technique.
Then, the closely related sequences are extracted by applying threshold conditions and by using shift
operations in the both directions optimal sequence alignment is obtained.
},
added-at = {2018-03-27T12:11:39.000+0200},
author = {Singh1, Harmandeep and Prof.2, Er. Rajbir Singh Associate and Kaur3, Navjot},
biburl = {https://www.bibsonomy.org/bibtex/2d12f71d7e71534465c55f8bc1bcda8b3/ijcseit},
doi = {10.5121/ijcseit.2013.3101},
interhash = {9ae04de4aae9dc37f4b5d0a0848f5797},
intrahash = {d12f71d7e71534465c55f8bc1bcda8b3},
issn = {2231-3117 [Online] ; 2231-3605 [Print]},
journal = {International Journal of Computer Science, Engineering and Information Technology (IJCSEIT)},
keywords = {Alignment Bank Data Local Multiple NCBI Phylogenetic Sequence Tree},
language = {English},
month = feb,
number = 1,
pages = {01-12},
timestamp = {2018-03-27T12:11:39.000+0200},
title = {IMPLEMENTING HIERARCHICAL CLUSTERING METHOD FOR MULTIPLE SEQUENCE ALIGNMENT AND PHYLOGENETIC TREE CONSTRUCTION
},
url = {http://airccse.org/journal/ijcseit/papers/3113ijcseit01.pdf},
volume = 3,
year = 2013
}