TY - JOUR
T1 - Construction and analysis of a plant non-specific lipid transfer protein database (nsLTPDB)
AU - Wang, Nai Jyuan
AU - Lee, Chi Ching
AU - Cheng, Chao Sheng
AU - Lo, Wei-Cheng
AU - Yang, Ya Fen
AU - Chen, Ming Nan
AU - Lyu, Ping Chiang
N1 - Publisher Copyright:
© 2012 Wang et al.; licensee BioMed Central Ltd.
PY - 2012
Y1 - 2012
N2 - Background: Plant non-specific lipid transfer proteins (nsLTPs) are small and basic proteins. Recently, nsLTPs have been reported involved in many physiological functions such as mediating phospholipid transfer, participating in plant defence activity against bacterial and fungal pathogens, and enhancing cell wall extension in tobacco. However, the lipid transfer mechanism of nsLTPs is still unclear, and comprehensive information of nsLTPs is difficult to obtain.Methods: In this study, we identified 595 nsLTPs from 121 different species and constructed an nsLTPs database-nsLTPDB-which comprises the sequence information, structures, relevant literatures, and biological data of all plant nsLTPs http://nsltpdb.life.nthu.edu.tw/.Results: Meanwhile, bioinformatics and statistics methods were implemented to develop a classification method for nsLTPs based on the patterns of the eight highly-conserved cysteine residues, and to suggest strict Prositestyled patterns for Type I and Type II nsLTPs. The pattern of Type I is C X2 V X5-7 C [V, L, I] × Y [L, A, V] X8-13 CC ×G X12 D × [Q, K, R] X2 CXC X16-21 P X2 C X13-15C, and that of Type II is C X4 L X2 C X9-11 P [S, T] X2 CC X5 Q X2-4 C[L,F]C X2 [A, L, I] × [D, N] P X10-12 [K, R] X4-5 C X3-4 P X0-2 C. Moreover, we referred the Prosite-styled patterns to the experimental mutagenesis data that previously established by our group, and found that the residues with higher conservation played an important role in the structural stability or lipid binding ability of nsLTPs.Conclusions: Taken together, this research has suggested potential residues that might be essential to modulate the structural and functional properties of plant nsLTPs. Finally, we proposed some biologically important sites of the nsLTPs, which are described by using a new Prosite-styled pattern that we defined.
AB - Background: Plant non-specific lipid transfer proteins (nsLTPs) are small and basic proteins. Recently, nsLTPs have been reported involved in many physiological functions such as mediating phospholipid transfer, participating in plant defence activity against bacterial and fungal pathogens, and enhancing cell wall extension in tobacco. However, the lipid transfer mechanism of nsLTPs is still unclear, and comprehensive information of nsLTPs is difficult to obtain.Methods: In this study, we identified 595 nsLTPs from 121 different species and constructed an nsLTPs database-nsLTPDB-which comprises the sequence information, structures, relevant literatures, and biological data of all plant nsLTPs http://nsltpdb.life.nthu.edu.tw/.Results: Meanwhile, bioinformatics and statistics methods were implemented to develop a classification method for nsLTPs based on the patterns of the eight highly-conserved cysteine residues, and to suggest strict Prositestyled patterns for Type I and Type II nsLTPs. The pattern of Type I is C X2 V X5-7 C [V, L, I] × Y [L, A, V] X8-13 CC ×G X12 D × [Q, K, R] X2 CXC X16-21 P X2 C X13-15C, and that of Type II is C X4 L X2 C X9-11 P [S, T] X2 CC X5 Q X2-4 C[L,F]C X2 [A, L, I] × [D, N] P X10-12 [K, R] X4-5 C X3-4 P X0-2 C. Moreover, we referred the Prosite-styled patterns to the experimental mutagenesis data that previously established by our group, and found that the residues with higher conservation played an important role in the structural stability or lipid binding ability of nsLTPs.Conclusions: Taken together, this research has suggested potential residues that might be essential to modulate the structural and functional properties of plant nsLTPs. Finally, we proposed some biologically important sites of the nsLTPs, which are described by using a new Prosite-styled pattern that we defined.
UR - http://www.scopus.com/inward/record.url?scp=84862267808&partnerID=8YFLogxK
U2 - 10.1186/1471-2164-13-S1-S9
DO - 10.1186/1471-2164-13-S1-S9
M3 - Conference article
C2 - 22369214
AN - SCOPUS:84862267808
SN - 1751-6404
VL - 13
JO - Series on Advances in Bioinformatics and Computational Biology
JF - Series on Advances in Bioinformatics and Computational Biology
M1 - S9
T2 - 10th Asia Pacific Bioinformatics Conference, APBC 2012
Y2 - 17 January 2012 through 19 January 2012
ER -