Subject index

Volume 160 (2001)

www.elsevier.com/locate/plantsci

ABA;Corydalis yanhusuo; Growth retardant; Medicinal plant; Papaveraceae; PEG-4000; Somatic embryogenesis 160, 139

Abscisic acid; Copper; Oryza sati6a; Proline

accumula-tion 160, 283

Abscisic acid; Days after pollination; Days after germination; Desiccation tolerance; Aldose reductase; Water stress 160, 149

Acid metabolism; Organic acids; Nutrient uptake; Aluminum tolerance; Microorganisms; Transgenic plants 160, 1

Agrobacterium rhizogenes; Ammi majus; Furanocoumarins; Hairy roots; Secondary metabolites; Transformation 160, 259

Aldose reductase; Abscisic acid; Days after pollination; Days after germination; Desiccation tolerance; Water stress 160, 149

Aluminum tolerance; Organic acids; Acid metabolism; Nutrient uptake; Microorganisms; Transgenic plants 160, 1

Amino acids; Barley; Nitrate uptake; Nitrate reductase; Roots 160, 219

Ammi majus; Agrobacterium rhizogenes; Furanocoumarins; Hairy roots; Secondary metabolites; Transformation 160, 259

Anthocyanin; Copigmentation; Bluing effect; Flower color breeding;Torenia fournieri; Transformation 160, 49

Anthocyanin; Fusion protein;Ipomoea batatas; Polyclonal

an-tibodies; Transmembrane domain; Vacuolar protein 160, 121

Antirrhinum majus; Aurone; Aureusidin; Bracteatin; 2%,4%,6% ,4-Tetrahydroxychalcone; 2%,4%,6%,3,4-Pentahydroxychalcone; Snapdragon 160, 229

Arabinogalactan-proteins; Gene regulation; Loblolly pine;Pi

-nus taeda; Transformation; Xylem 160, 77

Asparagus officinalisL.; Somatic embryogenesis; Habituation; Mutation; Hormone; Flow cytometry; Ploidy level 160, 15

Aureusidin; Aurone; Bracteatin; 2%,4%,6% ,4-Tetrahydroxychal-cone; 2%,4%,6%,3,4-Pentahydroxychalcone; Snapdragon; Antir -rhinum majus 160, 229

Aurone; Aureusidin; Bracteatin; 2%,4%,6%

,4-Tetrahydroxychal-cone; 2%,4%,6%,3,4-Pentahydroxychalcone; Snapdragon; Antir -rhinum majus 160, 229

Bacterial wilt; Protoplast fusion; Flow cytometry; RAPDs; Chloroplast DNA microsatellite 160, 301

Bacterial wilt; Solanum tuberosum;Solanum phureja;

Electro-fusion; Somatic hybrids;Ralstonia solanacearum 160, 165

Barley; Amino acids; Nitrate uptake; Nitrate reductase; Roots 160, 219

Binding protein; Molecular chaperone; Organ-specific

regula-tion 160, 273

Bluing effect; Copigmentation; Flower color breeding; An-thocyanin;Torenia fournieri; Transformation 160, 49

Bracteatin; Aurone; Aureusidin; 2%,4%,6% ,4-Tetrahydroxychal-cone; 2%,4%,6%,3,4-Pentahydroxychalcone; Snapdragon; Antir -rhinum majus 160, 229

Callus; Oncidium; Somatic embryogenesis 160, 87

cDNA; Sugar phosphorylation;Lycopersicon esculentum 160,

209

Chlorophyll; Cucumis melo (Inodorus group);

Hypodermal-mesocarp; Malondialdehyde; Lipoxygenase; Phospholipase

D 160, 105

Chloroplast DNA microsatellite; Protoplast fusion; Flow cy-tometry; RAPDs; Bacterial wilt 160, 301

Chronaxie; Stimulus; Threshold; Strength – duration relation; Rheobase 160, 237

Citrullus lanatus; Lycopersicon esculentum; Phenolic com-pounds 160, 315

Citrus; H+_{-ATPase; Inhibitors; LATS; Nitrate uptake 160,}

95

Closterium ehrenbergii; DNA synthesis inhibitor; Pyrenoid; Sexual reproduction; Zygote formation 160, 57

Copigmentation; Bluing effect; Flower color breeding; An-thocyanin;Torenia fournieri; Transformation 160, 49

Copper; Abscisic acid; Oryza sati6a; Proline

accumula-tion 160, 283

Copper; Glutathione cycle enzymes; Glutathione; Phy-tochelatins;Scenedesmus bijugatus 160, 291

Copper; Nitrate reductase; Nitrite reductase; Glutamate dehy-drogenase; Glutamate; Glutamine 160, 159

Corydalis yanhusuo; ABA; Growth retardant; Medicinal plant; Papaveraceae; PEG-4000; Somatic embryogenesis 160, 139

Cucumis melo (Inodorus group); Chlorophyll; Hypodermal-mesocarp; Malondialdehyde; Lipoxygenase; Phospholipase

D 160, 105

Cytochrome P450; Lotus japonicus; Fabaceae; Isoflavonoid;

Vestitol 160, 37

Cytomics/proteomics; Cytoskeleton-associated proteins; Cy-toskeleton-bound polysomes; 4 nm nanofilaments; 12 nm nan-otubules; Plant-specific methods 160, 185

Cytoskeleton-associated proteins; Cytomics/proteomics; Cy-toskeleton-bound polysomes; 4 nm nanofilaments; 12 nm nan-otubules; Plant-specific methods 160, 185

Cytoskeleton-bound polysomes; Cytomics/proteomics;

Cy-toskeleton-associated proteins; 4 nm nanofilaments; 12 nm nanotubules; Plant-specific methods 160, 185

Daucus carota; Polyketide biosynthetic enzyme; Reducing co-factor; Rate-limiting step; Multifunctional enzyme; Deuterium isotope effect 160, 113

Days after germination; Abscisic acid; Days after pollination; Desiccation tolerance; Aldose reductase; Water stress 160, 149

Days after pollination; Abscisic acid; Days after germination; Desiccation tolerance; Aldose reductase; Water stress 160, 149

Desiccation tolerance; Abscisic acid; Days after pollination; Days after germination; Aldose reductase; Water stress 160, 149

Deuterium isotope effect; Daucus carota; Polyketide

biosyn-thetic enzyme; Reducing co-factor; Rate-limiting step; Multi-functional enzyme 160, 113

DNA synthesis inhibitor;Closterium ehrenbergii; Pyrenoid; Sex-ual reproduction; Zygote formation 160, 57

Early nodulin; ENBP1 binding site; Hairy roots; Promoter activity;Vicia faba;Vicia hirsuta 160, 67

Electrofusion; Solanum tuberosum; Solanum phureja; Somatic

hybrids; Bacterial wilt;Ralstonia solanacearum 160, 165

ENBP1 binding site; Early nodulin; Hairy roots; Promoter activity;Vicia faba;Vicia hirsuta 160, 67

Essential oils; Ocimum basilicum L.; Lamiaceae; Sweet basil;

Estragole; Methyl eugenol;O-methyltransferase 160, 27

Estragole; Ocimum basilicum L.; Lamiaceae; Sweet basil;

Es-sential oils; Methyl eugenol;O-methyltransferase 160, 27

Ethylene; Rosa hybrida; Flower senescence;

Lipoxyge-nase 160, 129

Fabaceae; Lotus japonicus; Cytochrome P450; Isoflavonoid;

Vestitol 160, 37

FAD; Polyamine oxidase; Flavoprotein; Hydrogen peroxide; Spermine; Spermidine 160, 197

Flavoprotein; Polyamine oxidase; FAD; Hydrogen peroxide; Spermine; Spermidine 160, 197

Flow cytometry;Asparagus officinalisL.; Somatic

embryogene-sis; Habituation; Mutation; Hormone; Ploidy level 160, 15

Flow cytometry; Protoplast fusion; RAPDs; Chloroplast DNA microsatellite; Bacterial wilt 160, 301

Flower color breeding; Copigmentation; Bluing effect; An-thocyanin;Torenia fournieri; Transformation 160, 49

Flower senescence; Rosa hybrida; Lipoxygenase;

Ethyl-ene 160, 129

Furanocoumarins; Ammi majus; Agrobacterium rhizogenes;

Hairy roots; Secondary metabolites; Transformation 160, 259

Fusion protein; Anthocyanin;Ipomoea batatas; Polyclonal

anti-bodies; Transmembrane domain; Vacuolar protein 160, 121

Gas exchange; Salt stress;Lycopersicon esculentum; Plant

wa-ter uptake; Wawa-ter relations; Wawa-ter use efficiency 160, 265

Gene regulation; Arabinogalactan-proteins; Loblolly pine;Pi

-nus taeda; Transformation; Xylem 160, 77

Glutamate; Copper; Nitrate reductase; Nitrite reductase; Glu-tamate dehydrogenase; Glutamine 160, 159

Glutamate dehydrogenase; Copper; Nitrate reductase; Nitrite reductase; Glutamate; Glutamine 160, 159

Glutamine; Copper; Nitrate reductase; Nitrite reductase; Glu-tamate dehydrogenase; GluGlu-tamate 160, 159

Glutathione; Copper; Glutathione cycle enzymes;

Phy-tochelatins;Scenedesmus bijugatus 160, 291

Glutathione cycle enzymes; Copper; Glutathione;

Phy-tochelatins;Scenedesmus bijugatus 160, 291

Growth retardant; ABA;Corydalis yanhusuo; Medicinal plant;

Papaveraceae; PEG-4000; Somatic embryogenesis 160, 139

Habituation; Asparagus officinalisL.; Somatic embryogenesis;

Mutation; Hormone; Flow cytometry; Ploidy level 160, 15

Hairy roots; Ammi majus; Agrobacterium rhizogenes;

Fura-nocoumarins; Secondary metabolites; Transformation 160, 259

Hairy roots; Early nodulin; ENBP1 binding site; Promoter activity;Vicia faba;Vicia hirsuta 160, 67

H+_{-ATPase; Citrus; Inhibitors; LATS; Nitrate uptake 160,}

95

Hormone; Asparagus officinalis L.; Somatic embryogenesis;

Hydrogen peroxide; Polyamine oxidase; Flavoprotein; FAD; Spermine; Spermidine 160, 197

Hypodermal-mesocarp; Chlorophyll; Cucumis melo (Inodorus

group); Malondialdehyde; Lipoxygenase; Phospholipase

D 160, 105

Inhibitors; Citrus; H+_{-ATPase; LATS; Nitrate uptake 160,}

95

In vitro culture; Phytohormones; Radio-immunoassay; Somatic embryogenesis;Zea mays(L.) 160, 247

Ipomoea batatas; Anthocyanin; Fusion protein; Polyclonal antibodies; Transmembrane domain; Vacuolar protein 160, 121

Isoflavonoid; Lotus japonicus; Fabaceae; Cytochrome P450;

Vestitol 160, 37

Lamiaceae; Ocimum basilicum L.; Sweet basil; Essential oils;

Estragole; Methyl eugenol;O-methyltransferase 160, 27

LATS; Citrus; H+_{-ATPase; Inhibitors; Nitrate uptake 160,}

95

Lipoxygenase; Chlorophyll; Cucumis melo (Inodorus group);

Hypodermal-mesocarp; Malondialdehyde; Phospholipase

D 160, 105

Lipoxygenase; Rosa hybrida; Flower senescence;

Ethyl-ene 160, 129

Loblolly pine; Arabinogalactan-proteins; Gene regulation;Pi

-nus taeda; Transformation; Xylem 160, 77

Lotus japonicus; Fabaceae; Cytochrome P450; Isoflavonoid; Vestitol 160, 37

Lycopersicon esculentum; Citrullus lanatus; Phenolic com-pounds 160, 315

Lycopersicon esculentum; Salt stress; Plant water uptake; Wa-ter relations; Gas exchange; WaWa-ter use efficiency 160, 265

Lycopersicon esculentum; Sugar phosphorylation;

cDNA 160, 209

Malondialdehyde; Chlorophyll; Cucumis melo (Inodorus

group); Hypodermal-mesocarp; Lipoxygenase; Phospholipase

D 160, 105

Medicinal plant; ABA;Corydalis yanhusuo; Growth retardant;

Papaveraceae; PEG-4000; Somatic embryogenesis 160, 139

Methyl eugenol;Ocimum basilicumL.; Lamiaceae; Sweet basil;

Essential oils; Estragole;O-methyltransferase 160, 27

Microorganisms; Organic acids; Acid metabolism; Nutrient uptake; Aluminum tolerance; Transgenic plants 160, 1

Molecular chaperone; Binding protein; Organ-specific

regula-tion 160, 273

Multifunctional enzyme; Daucus carota; Polyketide

biosyn-thetic enzyme; Reducing co-factor; Rate-limiting step; Deu-terium isotope effect 160, 113

Mutation; Asparagus officinalis L.; Somatic embryogenesis;

Habituation; Hormone; Flow cytometry; Ploidy level 160, 15

Nitrate reductase; Amino acids; Barley; Nitrate uptake; Roots 160, 219

Nitrate reductase; Copper; Nitrite reductase; Glutamate dehy-drogenase; Glutamate; Glutamine 160, 159

Nitrate uptake; Amino acids; Barley; Nitrate reductase; Roots 160, 219

Nitrate uptake; Citrus; H+_{-ATPase; Inhibitors; LATS 160,}

95

Nitrite reductase; Copper; Nitrate reductase; Glutamate dehy-drogenase; Glutamate; Glutamine 160, 159

4 nm nanofilaments; Cytomics/proteomics; Cytoskeleton-asso-ciated proteins; Cytoskeleton-bound polysomes; 12 nm nan-otubules; Plant-specific methods 160, 185

12 nm nanotubules; Cytomics/proteomics; Cytoskeleton-associ-ated proteins; Cytoskeleton-bound polysomes; 4 nm nanofila-ments; Plant-specific methods 160, 185

Nutrient uptake; Organic acids; Acid metabolism; Aluminum tolerance; Microorganisms; Transgenic plants 160, 1

Ocimum basilicum L.; Lamiaceae; Sweet basil; Essential oils; Estragole; Methyl eugenol;O-methyltransferase 160, 27

O-methyltransferase;Ocimum basilicum L.; Lamiaceae; Sweet

basil; Essential oils; Estragole; Methyl eugenol 160, 27

Oncidium; Callus; Somatic embryogenesis 160, 87

Organic acids; Acid metabolism; Nutrient uptake; Aluminum tolerance; Microorganisms; Transgenic plants 160, 1

Organ-specific regulation; Binding protein; Molecular

chaper-one 160, 273

Oryza sati7a; Abscisic acid; Copper; Proline

accumula-tion 160, 283

Papaveraceae; ABA; Corydalis yanhusuo; Growth retardant;

Medicinal plant; PEG-4000; Somatic embryogenesis 160, 139

PEG-4000; ABA; Corydalis yanhusuo; Growth retardant;

Medicinal plant; Papaveraceae; Somatic embryogenesis 160, 139

2%,4%,6%,3,4-Pentahydroxychalcone; Aurone; Aureusidin;

Bracteatin; 2%,4%,6%,4-Tetrahydroxychalcone; Snapdragon;An -tirrhinum majus 160, 229

Phenolic compounds; Lycopersicon esculentum; Citrullus lana

-tus 160, 315

Phospholipase D; Chlorophyll; Cucumis melo (Inodorus

group); Hypodermal-mesocarp; Malondialdehyde;

Lipoxyge-nase 160, 105

Phytohormones; Radio-immunoassay; Somatic embryogenesis; In vitro culture;Zea mays(L.) 160, 247

Pinus taeda; Arabinogalactan-proteins; Gene regulation; Loblolly pine; Transformation; Xylem 160, 77

Plant-specific methods; Cytomics/proteomics; Cytoskeleton-as-sociated proteins; Cytoskeleton-bound polysomes; 4 nm nanofilaments; 12 nm nanotubules 160, 185

Plant water uptake; Salt stress;Lycopersicon esculentum; Water relations; Gas exchange; Water use efficiency 160, 265

Ploidy level;Asparagus officinalisL.; Somatic embryogenesis;

Habituation; Mutation; Hormone; Flow cytometry 160, 15

Polyamine oxidase; Flavoprotein; FAD; Hydrogen peroxide; Spermine; Spermidine 160, 197

Polyclonal antibodies; Anthocyanin; Fusion protein; Ipomoea

batatas; Transmembrane domain; Vacuolar protein 160, 121

Polyketide biosynthetic enzyme; Daucus carota; Reducing

co-factor; Rate-limiting step; Multifunctional enzyme; Deuterium isotope effect 160, 113

Proline accumulation; Abscisic acid; Copper; Oryza sa

-ti6a 160, 283

Promoter activity; Early nodulin; ENBP1 binding site; Hairy roots;Vicia faba;Vicia hirsuta 160, 67

Protoplast fusion; Flow cytometry; RAPDs; Chloroplast DNA microsatellite; Bacterial wilt 160, 301

Pyrenoid; Closterium ehrenbergii; DNA synthesis inhibitor;

Sexual reproduction; Zygote formation 160, 57

Radio-immunoassay; Phytohormones; Somatic embryogenesis; In vitro culture;Zea mays(L.) 160, 247

Ralstonia solanacearum;Solanum tuberosum;Solanum phureja; Electrofusion; Somatic hybrids; Bacterial wilt 160, 165

RAPDs; Protoplast fusion; Flow cytometry; Chloroplast DNA microsatellite; Bacterial wilt 160, 301

Rate-limiting step;Daucus carota; Polyketide biosynthetic en-zyme; Reducing co-factor; Multifunctional enen-zyme; Deuterium isotope effect 160, 113

Reducing co-factor; Daucus carota; Polyketide biosynthetic

enzyme; Rate-limiting step; Multifunctional enzyme; Deu-terium isotope effect 160, 113

Rheobase; Stimulus; Threshold; Strength – duration relation; Chronaxie 160, 237

Roots; Amino acids; Barley; Nitrate uptake; Nitrate

reduc-tase 160, 219

Rosa hybrida; Flower senescence; Lipoxygenase;

Ethyl-ene 160, 129

Salt stress;Lycopersicon esculentum; Plant water uptake;

Wa-ter relations; Gas exchange; WaWa-ter use efficiency 160, 265

Scenedesmus bijugatus; Copper; Glutathione cycle enzymes; Glutathione; Phytochelatins 160, 291

Secondary metabolites; Ammi majus; Agrobacterium rhizoge

-nes; Furanocoumarins; Hairy roots; Transformation 160, 259

Sexual reproduction; Closterium ehrenbergii; DNA synthesis

inhibitor; Pyrenoid; Zygote formation 160, 57

Snapdragon; Aurone; Aureusidin; Bracteatin; 2%,4%,6% ,4-Te-trahydroxychalcone; 2%,4%,6%,3,4-Pentahydroxychalcone; Antir -rhinum majus 160, 229

Solanum phureja;Solanum tuberosum; Electrofusion; Somatic hybrids; Bacterial wilt;Ralstonia solanacearum 160, 165

Solanum tuberosum; Solanum phureja; Electrofusion; Somatic hybrids; Bacterial wilt;Ralstonia solanacearum 160, 165

Somatic embryogenesis; ABA; Corydalis yanhusuo; Growth

retardant; Medicinal plant; Papaveraceae; PEG-4000 160, 139

Somatic embryogenesis; Asparagus officinalisL.; Habituation;

Mutation; Hormone; Flow cytometry; Ploidy level 160, 15

Somatic embryogenesis; Callus; Oncidium 160, 87

Somatic embryogenesis; Phytohormones; Radio-immunoassay; In vitro culture;Zea mays(L.) 160, 247

Somatic hybrids; Solanum tuberosum; Solanum phureja;

Elec-trofusion; Bacterial wilt;Ralstonia solanacearum 160, 165

Spermidine; Polyamine oxidase; Flavoprotein; FAD; Hydro-gen peroxide; Spermine 160, 197

Spermine; Polyamine oxidase; Flavoprotein; FAD; Hydrogen peroxide; Spermidine 160, 197

Stimulus; Threshold; Strength – duration relation; Rheobase; Chronaxie 160, 237

Strength – duration relation; Stimulus; Threshold; Rheobase; Chronaxie 160, 237

Sugar phosphorylation;Lycopersicon esculentum; cDNA 160,

209

Sweet basil;Ocimum basilicum L.; Lamiaceae; Essential oils;

Estragole; Methyl eugenol;O-methyltransferase 160, 27

2%,4%,6%,4-Tetrahydroxychalcone; Aurone; Aureusidin;

Bracteatin; 2%,4%,6%,3,4-Pentahydroxychalcone; Snapdragon; Antirrhinum majus 160, 229

Threshold; Stimulus; Strength – duration relation; Rheobase; Chronaxie 160, 237

Torenia fournieri; Copigmentation; Bluing effect; Flower color breeding; Anthocyanin; Transformation 160, 49

Transformation;Ammi majus;Agrobacterium rhizogenes;

Fura-nocoumarins; Hairy roots; Secondary metabolites 160, 259

Transformation; Copigmentation; Bluing effect; Flower color breeding; Anthocyanin;Torenia fournieri 160, 49

Transgenic plants; Organic acids; Acid metabolism; Nutrient uptake; Aluminum tolerance; Microorganisms 160, 1

Transmembrane domain; Anthocyanin; Fusion protein; Ipo

-moea batatas; Polyclonal antibodies; Vacuolar protein 160, 121

Vacuolar protein; Anthocyanin; Fusion protein; Ipomoea

batatas; Polyclonal antibodies; Transmembrane domain 160, 121

Vestitol; Lotus japonicus; Fabaceae; Cytochrome P450;

Isoflavonoid 160, 37

Vicia faba; Early nodulin; ENBP1 binding site; Hairy roots; Promoter activity;Vicia hirsuta 160, 67

Vicia hirsuta; Early nodulin; ENBP1 binding site; Hairy roots;

Promoter activity;Vicia faba 160, 67

Water relations; Salt stress; Lycopersicon esculentum; Plant

water uptake; Gas exchange; Water use efficiency 160, 265

Water stress; Abscisic acid; Days after pollination; Days after germination; Desiccation tolerance; Aldose reductase 160, 149

Water use efficiency; Salt stress; Lycopersicon esculentum;

Plant water uptake; Water relations; Gas exchange 160, 265

Xylem; Arabinogalactan-proteins; Gene regulation; Loblolly pine;Pinus taeda; Transformation 160, 77

Zea mays(L.); Phytohormones; Radio-immunoassay; Somatic embryogenesis; In vitro culture 160, 247

Zygote formation; Closterium ehrenbergii; DNA synthesis