Presence of Multiple cDNAs Encoding an Isoform of ADP-Glucose Pyrophosphorylase Large Subunit from Sweet Potato and Characterization of Expression Levels

doi:10.1093/pcp/pcd049

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Plant and Cell Physiology, 2000, Vol. 41, No. 11 1235-1242
© 2000 Oxford University Press

Presence of Multiple cDNAs Encoding an Isoform of ADP-Glucose Pyrophosphorylase Large Subunit from Sweet Potato and Characterization of Expression Levels

Chee Hark Harn¹^,3, Jung Myung Bae²^,4, Sang Sook Lee², Sung Ran Min² and Jang Ryol Liu²^,5

¹ Biotechnology Center, Nong Woo Bio, Ganam-myun, Yeoju-kun, Kyonggi-do, 469-880, Korea ² Plant Cell and Molecular Biology Research Unit, Korea Research Institute of Bioscience and Biotechnology, P.O. Box 115, Yusong, Taejon, 305-600, Korea

Three cDNAs (iAGPLI-1, iAGPLI-2, and iAGPLI-3) encoding an isoformof AGPase large subunit were isolated from a sweet potato cDNAlibrary constructed from tuberous root tissue. iAGPLI-1 was2,161 bp in length and contained an open reading frameof 517 amino acids with a calculated molecular mass of 57,689 Da.iAGPLI-2 and iAGPLI-3 were 1,804 and 1,524 bp in length,respectively, and contained partial open reading frames of 490and 385 amino acids. Deduced amino acid sequence comparisonanalysis showed that iAGPLI-1 has sequence identity with iAGPLI-2(97.9) and iAGPLI-3 (98.7%) while iAGPLI-2 and iAGPLI-3 have96.8% sequence identity. iAGPLI-1 had the highest sequence identityof 77.8% with potato AGPase (sAGPL1). Steady-state levels ofiAGPLI-1 transcripts were expressed predominantly in the stem,and moderately in the tuberous root, but not in either the rootsor leaves. However, AGPase activity was present in all tissues.The expression level in the stem declined dramatically aftera 12 h incubation in the dark to nearly 3% of the valueunder light, although the activity under a dark condition remainedat half the levels in light. The activity levels were not correlatedwith the transcript levels. iAGPL transcripts in leaves wereinduced by sucrose feeding but not by glucose or fructose. Therefore,the expression of iAGPLI-1 is regulated in stem tissue preferentiallyand by sucrose. Southern blot analysis showed that the sweetpotato genome contained several copies of iAGPLI gene probablydue to polyploidy.

³ Corresponding author: E-mail, chharn@nongwoobio.co.kr; Fax,+82-31-884-7065; Phone, +82-31-883-7055.

⁴ Present address: Graduate School of Biotechnology, Korea University,Seoul, 136-701, Korea.

⁵ To whom the authorship of this paper belongs.

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