TY - JOUR
T1 - Phenylalanine ammonia-lyase genes from pisum sativum
T2 - Structure, organ-specific expression and regulation by fungal elicitor and suppressor
AU - Yamada, Tetsuji
AU - Tanaka, Yoshikazu
AU - Sriprasertsak, Permpong
AU - Kato, Hisaharu
AU - Hashimoto, Tadaaki
AU - Kawamata, Shinji
AU - Ichinose, Yuki
AU - Kato, Hidenori
AU - Shiraishi, Tomonori
AU - Oku, Hachiro
N1 - Funding Information:
The authors are deeply grateful to Dr. Yoshiaki Otsuki of the Agricultural Research Center, Tsukuba, Japan, for technical help in establishing the suspension-culture system for pea and to Dr. Hirohiko Hirochika of the Institute of Biological Resources, Tsukuba, Japan, for the gift of p35SCAT-N. This work was supported in part by Grants-in-Aid for Scientific Research from the Ministry of Education, Science and Culture of Japan and by the Takasago Research Institute.
PY - 1992/9
Y1 - 1992/9
N2 - Genomic DNA clones representing two members of a small multigene family of phenylalanine ammonia-lyase (pal) in pea, designated PSPAL1 and PSPAL2, were obtained and the nucleotide sequences were determined. PSPAL1 and PSPAL2 each contain a single intron but the sizes of the introns are different. Using specific oligonucleotide probes from the 5'-noncoding region of PSPAL1 and PSPAL2, we showed that the accumulation of both PSPAL1 and PSPAL2 transcripts was induced in epicotyl tissues by treatment with the fungal elicitor isolated from a pea pathogen, Mycosphaerella pinodes, and transcripts of both PSPAL1 and PSPAL2 accumulated at high levels in roots and at moderate level in stems but at very low levels in the upper part of the plant that included leaves and flower organs. A chimeric gene carrying 480 bp of the putative promoter fragment of PSPAL1 connected to the bacterial cat gene and the nos terminator was introduced by electroporation into pea protoplasts and the induction by fungal elicitor and suppression by suppressor or orthovanadate, an inhibitor for plasma membrane ATPase, were examined by an transient assay for CAT activity. CAT activity was induced by the treatment with fungal elicitor but suppressed by the fungal suppressor and by orthovanadate.
AB - Genomic DNA clones representing two members of a small multigene family of phenylalanine ammonia-lyase (pal) in pea, designated PSPAL1 and PSPAL2, were obtained and the nucleotide sequences were determined. PSPAL1 and PSPAL2 each contain a single intron but the sizes of the introns are different. Using specific oligonucleotide probes from the 5'-noncoding region of PSPAL1 and PSPAL2, we showed that the accumulation of both PSPAL1 and PSPAL2 transcripts was induced in epicotyl tissues by treatment with the fungal elicitor isolated from a pea pathogen, Mycosphaerella pinodes, and transcripts of both PSPAL1 and PSPAL2 accumulated at high levels in roots and at moderate level in stems but at very low levels in the upper part of the plant that included leaves and flower organs. A chimeric gene carrying 480 bp of the putative promoter fragment of PSPAL1 connected to the bacterial cat gene and the nos terminator was introduced by electroporation into pea protoplasts and the induction by fungal elicitor and suppression by suppressor or orthovanadate, an inhibitor for plasma membrane ATPase, were examined by an transient assay for CAT activity. CAT activity was induced by the treatment with fungal elicitor but suppressed by the fungal suppressor and by orthovanadate.
KW - Defense reactions
KW - Mycosphaerella pinodes
KW - Nucleotide sequence
KW - Orthovanadate
KW - Pisum sativum
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M3 - Article
AN - SCOPUS:0001332413
SN - 0032-0781
VL - 33
SP - 715
EP - 725
JO - Plant and Cell Physiology
JF - Plant and Cell Physiology
IS - 6
ER -