Is there an alternative pathway for starch synthesis ?OKITA, T. W.Plant physiology (Bethesda). 1992, Vol 100, Num 2, pp 560-564, issn 0032-0889Article

Nonrandom DNA sequencing of exonuclease III-deleted complementary DNAOKITA, T. W.Analytical biochemistry. 1985, Vol 144, Num 1, pp 207-211, issn 0003-2697Article

Identification and DNA sequence analysis of a γ-type gliadin cDNA plasmid from winter wheatOKITA, T. W.Plant molecular biology. 1984, Vol 3, Num 6, pp 325-332, issn 0167-4412Article

Mannose feeding and its effect on starch synthesis in developing potato tuber discsHNILO, J; OKITA, T. W.Plant and cell physiology. 1989, Vol 30, Num 7, pp 1007-1010, issn 0032-0781Article

Accumulation of prolamines and glutelins during rice seed development : a quantitative evaluationXINGXIANG LI; OKITA, T. W.Plant and cell physiology. 1993, Vol 34, Num 3, pp 385-390, issn 0032-0781Article

Interactions of the glutelin Gt3 5' flanking regulatory regions with rice nuclear proteinsZHAO, Y; OKITA, T. W.Plant and cell physiology. 1995, Vol 36, Num 8, pp 1657-1667, issn 0032-0781Article

Identification of positive and negative regulatory cis-elements of the rice glutelin Gt3 promoterCROISSANT-SYCH, Y; OKITA, T. W.Plant science (Limerick). 1996, Vol 116, Num 1, pp 27-35, issn 0168-9452Article

Segregation of storage protein mRNAs on the rough endoplasmic reticulum membranes of rice endosperm cellsXINGXIANG LI; FRANCESCHI, V. R; OKITA, T. W et al.Cell (Cambridge). 1993, Vol 72, Num 6, pp 869-879, issn 0092-8674Article

Structure, expression, and heterogeneity of the rice seed prolaminesWOO TAEK KIM; OKITA, T. W.Plant physiology (Bethesda). 1988, Vol 88, Num 3, pp 649-655, issn 0032-0889Article

Modification of carbon partitioning, photosynthetic capacity, and O₂ sensitivity in arabidopsis plants with low ADP-glucose pyrophosphorylase activityJINDONG SUN; OKITA, T. W; EDWARDS, G. E et al.Plant physiology (Bethesda). 1999, Vol 119, Num 1, pp 267-276, issn 0032-0889Article

Nucleotide and primary sequence of a major rice prolamineWOO TAEK KIM; OKITA, T. W.FEBS letters. 1988, Vol 231, Num 2, pp 308-310, issn 0014-5793Article

Accurate in vitro transcription of plant promoters with nuclear extracts prepared from cultured plant cellsROBERTS, M. W; OKITA, T. W.Plant molecular biology. 1991, Vol 16, Num 5, pp 771-786, issn 0167-4412Article

Analysis of nuclear proteins interacting with a wheat α/β-gliadin seed storage protein geneVELLANOWETH, R. L; OKITA, T. W.Plant molecular biology. 1993, Vol 22, Num 1, pp 25-41, issn 0167-4412Article

Expression of storage protein multigene families in developing rice endospermWOO TAEK KIM; XINGXIANG LI; OKITA, T. W et al.Plant and cell physiology. 1993, Vol 34, Num 4, pp 595-603, issn 0032-0781Article

Evolution and heterogeneity of the α-/β-type and γ-type gliadin DNA sequencesOKITA, T. W; CHEESBROUGH, V; REEVES, C. D et al.The Journal of biological chemistry (Print). 1985, Vol 260, Num 13, pp 8203-8213, issn 0021-9258Article

Differential regulation of ADP-glucose pyrophosphorylase in the sink and source tissues of potatoNAKATA, P. A; OKITA, T. W.Plant physiology (Bethesda). 1995, Vol 108, Num 1, pp 361-368, issn 0032-0889Article

Structural and functional analysis of promoter from gliadin, an endosperm-specific storage protein gene of Triticum aestivum LARYAN, A. P; AN, G; OKITA, T. W et al.MGG. Molecular & general genetics. 1991, Vol 225, Num 1, pp 65-71, issn 0026-8925, 7 p.Article

Analyses of α/β-type gliadin genes from diploid and hexaploid wheatsREEVES, C. D; OKITA, T. W.Gene (Amsterdam). 1987, Vol 52, Num 2-3, pp 257-266, issn 0378-1119Article

Structural relationship among the rice glutelin polypeptidesKRISHNAN, H. B; OKITA, T. W.Plant physiology (Bethesda). 1986, Vol 81, Num 3, pp 748-753, issn 0032-0889Article

Structure and expression of the rice glutelin multigene familyOKITA, T. W; YOUNG SOO HWANG; HNILO, J et al.The Journal of biological chemistry (Print). 1989, Vol 264, Num 21, pp 12573-12581, issn 0021-9258, 9 p.Article

ADPglucose pyrophosphorylase is encoded by different mRNA transcripts in leaf and endosperm of cerealsKRISHNAN, H. B; REEVES, C. D; OKITA, T. W et al.Plant physiology (Bethesda). 1986, Vol 81, Num 2, pp 642-645, issn 0032-0889Article

Gene expression in developing wheat endosperm: accumulation of gliadin and ADPglucose pyrophosphorylase messenger RNAS and polypeptidesREEVES, C. D; KRISHNAN, H. B; OKITA, T. W et al.Plant physiology (Bethesda). 1986, Vol 82, Num 1, pp 34-40, issn 0032-0889Article

Substrate binding mutants of the higher plant ADP-glucose pyrophosphorylaseLAUGHLIN, M. J; PAYNE, J. W; OKITA, T. W et al.Phytochemistry. 1998, Vol 47, Num 4, pp 621-629, issn 0031-9422Article

Aspartic acid 413 is important for the normal allosteric functioning of ADP-glucose pyrophosphorylaseGREENE, T. W; WOODBURY, R. L; OKITA, T. W et al.Plant physiology (Bethesda). 1996, Vol 112, Num 3, pp 1315-1320, issn 0032-0889Article

Expression of the potato tuber ADP-glucose pyrophosphorylase in Escherichia coliIGLESIAS, A. A; BARRY, G. F; MEYER, C et al.The Journal of biological chemistry (Print). 1993, Vol 268, Num 2, pp 1081-1086, issn 0021-9258Article