Lipid transfer proteins (LTPs) are small, basic and abundant proteins in hi
gher plants. They are capable of binding fatty acids and of transferring ph
ospholipids between membranes in vitro. LTPs from this family contain a sig
nal peptide and are secreted in the cell wall. Their biological function is
presently unknown. LTPs have been suggested to participate to cutin assemb
ly and to the defense of the plants against pathogens. A genetic approach s
hould prove useful to provide clues on their in vivo functions. Here, the c
haracterization of the LTP gene family in Arabidopsis thaliana is described
. At least 15 genes were identified, their map position determined and the
expression pattern characterized for six of them. All the sequences exhibit
the typical features of plant LTPs. The molecular weight is close to 9 kDa
, the isoelectric point is near 9 (except for three acidic LTPs), and typic
al amino acid residues such as cysteines are conserved. Genomic DNA blottin
g hybridization experiments performed using ltp1 to ltp6 as probes indicate
that Itps form distinct 1-3 gene subfamilies which do not cross hybridize.
Expression studies indicate that all the genes tested are expressed in flo
wers and siliques, but not in roots. Ltp1, ltp5 and ltp2 are expressed sign
ificantly in leaves, while ltp6 is detected only in 2-4-week-old leaves. In
addition, ltp4 and ltp3 are strongly upregulated by abscisic acid (ABA). T
andem repeats can be noted concerning ltp1 and ltp2 on chromosome 2, ltp3 a
nd ltp4 on chromosome 5 and ltp5 and ltp12 on chromosome 3. While ltp7, ltp
8 and ltp9 map at the same position on chromosome 2, the other genes are di
spersed throughout the genome. The characterization of the Arabidopsis Itp
gene family will permit to initiate a genetic approach for determining the
in vivo function(s) of these proteins. (C) 2000 Elsevier Science Ireland Lt
d. All rights reserved.