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Two starch-branching-enzyme isoforms occur in different fractions of developing seeds of kidney bean.
Biochem J. 2001 Oct 01; 359(Pt 1):23-34.BJ

Abstract

The nature and enzymic properties of starch-branching enzyme (SBE) are two of the dominant factors influencing the fine structure of starch. To understand the role of this enzyme's activity in the formation of starch in kidney bean (Phaseolus vulgaris L.), a study was undertaken to identify the major SBE sequences expressed during seed development and to characterize the enzymic properties of the coded recombinant enzymes. Two SBE cDNA species (designated pvsbe2 and pvsbe1) that displayed significant similarity (more than 70%) to other family A and B SBEs respectively were isolated. Northern blot analysis revealed that pvsbe1 and pvsbe2 were differentially expressed during seed development. pvsbe2 showed maximum steady-state transcript levels at the mid-stage of seed maturation, whereas pvsbe1 reached peak levels at a later stage. Western blot analysis with antisera raised against both recombinant proteins (rPvSBE1 and rPvSBE2) showed that these two SBEs were located in different amyloplast fractions of developing seeds of kidney bean. PvSBE2 was present in the soluble fraction, whereas PvSBE1 was associated with the starch granule fraction. The differences in location suggest that these two SBE isoenzymes have different roles in amylopectin synthesis in kidney bean seeds. rPvSBE1 and rPvSBE2 were purified from Escherichia coli and their kinetic properties were determined. The affinity of rPvSBE2 for amylose (K(m) 1.27 mg/ml) was lower than that of rPvSBE1 (0.46 mg/ml). The activity of rPvSBE2 was stimulated more than 3-fold in the presence of 0.3 M citrate, whereas rPvSBE1 activity was not affected. The implications of the enzymic properties and the distribution of SBEs and amylopectin structure are discussed.

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Authors+Show Affiliations

Hamada S
Department of Applied Bioscience, Graduate School of Agriculture, Hokkaido University, Sapporo 060-8589, Japan.
Nozaki K
No affiliation info available
Ito H
No affiliation info available
Yoshimoto Y
No affiliation info available
Yoshida H
No affiliation info available
Hiraga S
No affiliation info available
Onodera S
No affiliation info available
Honma M
No affiliation info available
Takeda Y
No affiliation info available
Matsui H
No affiliation info available

MeSH

1,4-alpha-Glucan Branching EnzymeAmino Acid SequenceAmylopectinAmyloseBase SequenceBlotting, NorthernBlotting, WesternCitric AcidCloning, MolecularDNA PrimersDNA, ComplementaryGene Expression Regulation, EnzymologicGene Expression Regulation, PlantIsoenzymesMolecular Sequence DataPhaseolusPolymerase Chain ReactionRecombinant ProteinsSeedsStarch

Pub Type(s)

Journal Article
Research Support, Non-U.S. Gov't

Language

eng

PubMed ID

11563966

Citation

Hamada, S, et al. "Two Starch-branching-enzyme Isoforms Occur in Different Fractions of Developing Seeds of Kidney Bean." The Biochemical Journal, vol. 359, no. Pt 1, 2001, pp. 23-34.
Hamada S, Nozaki K, Ito H, et al. Two starch-branching-enzyme isoforms occur in different fractions of developing seeds of kidney bean. Biochem J. 2001;359(Pt 1):23-34.
Hamada, S., Nozaki, K., Ito, H., Yoshimoto, Y., Yoshida, H., Hiraga, S., Onodera, S., Honma, M., Takeda, Y., & Matsui, H. (2001). Two starch-branching-enzyme isoforms occur in different fractions of developing seeds of kidney bean. The Biochemical Journal, 359(Pt 1), 23-34.
Hamada S, et al. Two Starch-branching-enzyme Isoforms Occur in Different Fractions of Developing Seeds of Kidney Bean. Biochem J. 2001 Oct 1;359(Pt 1):23-34. PubMed PMID: 11563966.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Two starch-branching-enzyme isoforms occur in different fractions of developing seeds of kidney bean. AU - Hamada,S, AU - Nozaki,K, AU - Ito,H, AU - Yoshimoto,Y, AU - Yoshida,H, AU - Hiraga,S, AU - Onodera,S, AU - Honma,M, AU - Takeda,Y, AU - Matsui,H, PY - 2001/9/21/pubmed PY - 2003/8/9/medline PY - 2001/9/21/entrez SP - 23 EP - 34 JF - The Biochemical journal JO - Biochem J VL - 359 IS - Pt 1 N2 - The nature and enzymic properties of starch-branching enzyme (SBE) are two of the dominant factors influencing the fine structure of starch. To understand the role of this enzyme's activity in the formation of starch in kidney bean (Phaseolus vulgaris L.), a study was undertaken to identify the major SBE sequences expressed during seed development and to characterize the enzymic properties of the coded recombinant enzymes. Two SBE cDNA species (designated pvsbe2 and pvsbe1) that displayed significant similarity (more than 70%) to other family A and B SBEs respectively were isolated. Northern blot analysis revealed that pvsbe1 and pvsbe2 were differentially expressed during seed development. pvsbe2 showed maximum steady-state transcript levels at the mid-stage of seed maturation, whereas pvsbe1 reached peak levels at a later stage. Western blot analysis with antisera raised against both recombinant proteins (rPvSBE1 and rPvSBE2) showed that these two SBEs were located in different amyloplast fractions of developing seeds of kidney bean. PvSBE2 was present in the soluble fraction, whereas PvSBE1 was associated with the starch granule fraction. The differences in location suggest that these two SBE isoenzymes have different roles in amylopectin synthesis in kidney bean seeds. rPvSBE1 and rPvSBE2 were purified from Escherichia coli and their kinetic properties were determined. The affinity of rPvSBE2 for amylose (K(m) 1.27 mg/ml) was lower than that of rPvSBE1 (0.46 mg/ml). The activity of rPvSBE2 was stimulated more than 3-fold in the presence of 0.3 M citrate, whereas rPvSBE1 activity was not affected. The implications of the enzymic properties and the distribution of SBEs and amylopectin structure are discussed. SN - 0264-6021 UR - https://www.unboundmedicine.com/medline/citation/11563966/Two_starch_branching_enzyme_isoforms_occur_in_different_fractions_of_developing_seeds_of_kidney_bean_ L2 - https://portlandpress.com/biochemj/article-lookup/doi/10.1042/0264-6021:3590023 DB - PRIME DP - Unbound Medicine ER -