Plant Science 155 (2000) 225 – 227
Subject index
Volume 155 (2000)
www.elsevier.com/locate/plantsci
Acclimatization ex vitro; Antioxidant enzymes; Photosynthesis; Calathea; Micropropagation 155, 59
Affinity chromatography; Naringenin 7-O-methyltransferase; Oryza sati6a; Sakuranetin; Phytoalexin; Jasmonic acid 155, 213
Agrobcterium tumefaciens; Artemisia annua L.; Farnesly diphosphate synthase; Transgenic shoots; Artemisinin 155, 179
Aldehyde oxidase; Cortex; Nitrate reductase; Maize; Nodal roots; Root tips; Stele; Xanthine dehydrogenase 155, 49
Amino acid sequence; Glyoxalase I; Triticum aesti6um; Se-quence alignment; Gene duplication; Drosophila melanogaster 155, 11
Antifungal protein; nsLTP; Mass spectrometry;Beta6ulgaris; Cercospora beticola 155, 31
Antioxidant enzymes; Acclimatization ex vitro; Photosynthesis; Calathea; Micropropagation 155, 59
AP1; Rice MADS-box gene; 3%RACE; 5%RACE; In situ hy-bridization 155, 115
Arabidopsis plastid v-3 fatty acid desaturase; calyculin A; jasmonic acid; staurosporine; wounding; wound-induced protein kinase 155, 153
Artemisia annua L.; Farnesly diphosphate synthase; Agrobc -terium tumefaciens; Transgenic shoots; Artemisinin 155, 179
Artemisinin; Artemisia annua L.; Farnesly diphosphate syn-thase;Agrobcterium tumefaciens; Transgenic shoots 155, 179
BarleyHVA1 gene; Biomass productivity; LEA protein; Water deficit; Water use efficiency; Wheat transformation 155, 1
Beta7ulgaris; Antifungal protein; nsLTP; Mass spectrometry; Cercospora beticola 155, 31
Biomass productivity; BarleyHVA1 gene; LEA protein; Water deficit; Water use efficiency; Wheat transformation 155, 1
Birch (Betula pendula); DNA-binding activity; Light response; Nitrate response; Nitrite reductase; Promoter analysis 155, 141
Calathea; Acclimatization ex vitro; Antioxidant enzymes; Pho-tosynthesis; Micropropagation 155, 59
Calliclones; Pelargonium gra6eolens; Somaclonal variations; Morphotypes; Essential oil profile 155, 133
calyculin A; Arabidopsis plastid v-3 fatty acid desaturase; jasmonic acid; staurosporine; wounding; wound-induced protein kinase 155, 153
Carnation; Floral-specific expression; Gene structure; MADS box 155, 123
cDNA;Vicia fabaL.;VfENOD5 gene 155, 169
Cercospora beticola; Antifungal protein; nsLTP; Mass spec-trometry;Beta6ulgaris 155, 31
Cicer arietinum; Cytochrome P450; Elicitor induction; Isoflavonoids; Phytoalexins; Pterocarpans 155, 101
Coat protein promoter; GUS; Tissue-specific expression; Maize streak virus; MSV; Transgenic rice 155, 21
Cortex; Aldehyde oxidase; Nitrate reductase; Maize; Nodal roots; Root tips; Stele; Xanthine dehydrogenase 155, 49
Cotton genetics; Root system; Mechanical impedance; Gene expression 155, 41
Cyclic hydroxamic acid;b-Glucosidase; Rye (Secale) 155, 67
Cytochrome P450; Cicer arietinum; Elicitor induction; Isoflavonoids; Phytoalexins; Pterocarpans 155, 101
Diurnal variation; Midday depression; Electron transport; RNA processing;Populus deltoides 155, 187
DNA-binding activity; Birch (Betula pendula); Light response; Nitrate response; Nitrite reductase; Promoter analysis 155, 141
Drosophila melanogaster; Glyoxalase I;Triticum aesti6um; Se-quence alignment; Gene duplication; Amino acid se-quence 155, 11
Electron transport; Diurnal variation; Midday depression; RNA processing;Populus deltoides 155, 187
Electroporation; Grapevine; Grape6ine fanleaf 6irus; Proto-plasts; Virus inoculation 155, 203
Elicitor induction; Cicer arietinum; Cytochrome P450; Isoflavonoids; Phytoalexins; Pterocarpans 155, 101
Subject index6ol.155 (2000) 226
Essential oil profile; Pelargonium gra6eolens; Calliclones; So-maclonal variations; Morphotypes 155, 133
Farnesly diphosphate synthase;Artemisia annuaL.;Agrobcterium tumefaciens; Transgenic shoots; Artemisinin 155, 179
Floral-specific expression; Carnation; Gene structure; MADS box 155, 123
Gene duplication; Glyoxalase I; Triticum aesti6um; Sequence alignment; Drosophila melanogaster; Amino acid se-quence 155, 11
Gene expression; Cotton genetics; Root system; Mechanical impedance 155, 41
Gene structure; Carnation; Floral-specific expression; MADS box 155, 123
b-Glucosidase; Cyclic hydroxamic acid; Rye (Secale) 155, 67
Glyoxalase I; Triticum aesti6um; Sequence alignment; Gene duplication; Drosophila melanogaster; Amino acid se-quence 155, 11
Grapevine; Electroporation; Grape6ine fanleaf 6irus; Proto-plasts; Virus inoculation 155, 203
Grape7ine fanleaf 7irus; Grapevine; Electroporation; Proto-plasts; Virus inoculation 155, 203
GUS; Tissue-specific expression; Maize streak virus; MSV; Coat protein promoter; Transgenic rice 155, 21
In situ hybridization; Rice MADS-box gene; 3%RACE; 5%RACE; AP1 155, 115
Isoflavonoids;Cicer arietinum; Cytochrome P450; Elicitor induc-tion; Phytoalexins; Pterocarpans 155, 101
Jasmonic acid; Arabidopsisplastid v-3 fatty acid desaturase; calyculin A; staurosporine; wounding; wound-induced protein kinase 155, 153
Jasmonic acid; Naringenin 7-O-methyltransferase;Oryza sati6a; Sakuranetin; Phytoalexin; Affinity chromatography 155, 213
LEA protein; BarleyHVA1 gene; Biomass productivity; Water deficit; Water use efficiency; Wheat transformation 155, 1
Leghemoglobin; Oxygen; Photorespiration; Photosynthe-sis 155, 193
Legume –Rhizobium symbiosis; Plant – microbe interactions; Pisum sati6um L.; Pea mutants; Symbiotic genes; Nodule ultrastructure; Sequential functioning of genes 155, 75
Light response; Birch (Betula pendula); DNA-binding activity; Nitrate response; Nitrite reductase; Promoter analysis 155, 141
MADS box; Carnation; Floral-specific expression; Gene struc-ture 155, 123
Maize; Aldehyde oxidase; Cortex; Nitrate reductase; Nodal roots; Root tips; Stele; Xanthine dehydrogenase 155, 49
Maize streak virus; GUS; Tissue-specific expression; MSV; Coat protein promoter; Transgenic rice 155, 21
Mass spectrometry; Antifungal protein; nsLTP;Beta6ulgaris; Cercospora beticola 155, 31
Mechanical impedance; Cotton genetics; Root system; Gene expression 155, 41
Micropropagation; Acclimatization ex vitro; Antioxidant en-zymes; Photosynthesis;Calathea 155, 59
Microsatellite; Molecular marker;Saccharum; Simple sequence repeats 155, 161
Midday depression; Diurnal variation; Electron transport; RNA processing;Populus deltoides 155, 187
Molecular marker; Microsatellite;Saccharum; Simple sequence repeats 155, 161
Morphotypes;Pelargonium gra6eolens; Calliclones; Somaclonal variations; Essential oil profile 155, 133
MSV; GUS; Tissue-specific expression; Maize streak virus; Coat protein promoter; Transgenic rice 155, 21
Naringenin 7-O-methyltransferase;Oryza sati6a; Sakuranetin; Phytoalexin; Affinity chromatography; Jasmonic acid 155, 213
Nitrate reductase; Aldehyde oxidase; Cortex; Maize; Nodal roots; Root tips; Stele; Xanthine dehydrogenase 155, 49
Nitrate response; Birch (Betula pendula); DNA-binding activity; Light response; Nitrite reductase; Promoter analysis 155, 141
Nitrite reductase; Birch (Betula pendula); DNA-binding activity; Light response; Nitrate response; Promoter analysis 155, 141
Nodal roots; Aldehyde oxidase; Cortex; Nitrate reductase; Maize; Root tips; Stele; Xanthine dehydrogenase 155, 49
Nodule ultrastructure; Plant – microbe interactions; Legume – Rhizobiumsymbiosis;Pisum sati6umL.; Pea mutants; Symbiotic genes; Sequential functioning of genes 155, 75
nsLTP; Antifungal protein; Mass spectrometry;Beta6ulgaris; Cercospora beticola 155, 31
Oryza sati7a; Naringenin 7-O-methyltransferase; Sakuranetin; Phytoalexin; Affinity chromatography; Jasmonic acid 155, 213
Oxygen; Leghemoglobin; Photorespiration; Photosynthe-sis 155, 193
Pea mutants; Plant – microbe interactions; Legume –Rhizobium symbiosis;Pisum sati6umL.; Symbiotic genes; Nodule ultra-structure; Sequential functioning of genes 155, 75
Pelargonium gra7eolens; Calliclones; Somaclonal variations; Morphotypes; Essential oil profile 155, 133
Peroxidase; Rice (Oryza sati6aL.); Wound; Transgenic plants; Tissue-specific expression 155, 85
Subject index6ol.155 (2000) 227
Photosynthesis; Acclimatization ex vitro; Antioxidant enzymes; Calathea; Micropropagation 155, 59
Photosynthesis; Leghemoglobin; Oxygen; Photorespira-tion 155, 193
Phytoalexin; Naringenin 7-O-methyltransferase;Oryza sati6a; Sakuranetin; Affinity chromatography; Jasmonic acid 155, 213
Phytoalexins;Cicer arietinum; Cytochrome P450; Elicitor induc-tion; Isoflavonoids; Pterocarpans 155, 101
Pisum sati7umL.; Plant – microbe interactions; Legume –Rhizo -biumsymbiosis; Pea mutants; Symbiotic genes; Nodule ultra-structure; Sequential functioning of genes 155, 75
Plant – microbe interactions; Legume –Rhizobium symbiosis; Pisum sati6um L.; Pea mutants; Symbiotic genes; Nodule ultrastructure; Sequential functioning of genes 155, 75
Populus deltoides; Diurnal variation; Midday depression; Elec-tron transport; RNA processing 155, 187
Promoter analysis; Birch (Betula pendula); DNA-binding activ-ity; Light response; Nitrate response; Nitrite reductase 155, 141
Protoplasts; Grapevine; Electroporation; Grape6ine fanleaf
6irus; Virus inoculation 155, 203
Pterocarpans;Cicer arietinum; Cytochrome P450; Elicitor in-duction; Isoflavonoids; Phytoalexins 155, 101
5%RACE; Rice MADS-box gene; 3%RACE; In situ hybridization; AP1 155, 115
3%RACE; Rice MADS-box gene; 5%RACE; In situ hybridization; AP1 155, 115
Rice MADS-box gene; 3%RACE; 5%RACE; In situ hybridization; AP1 155, 115
Rice (Oryza sati7aL.); Peroxidase; Wound; Transgenic plants; Tissue-specific expression 155, 85
RNA processing; Diurnal variation; Midday depression; Elec-tron transport;Populus deltoides 155, 187
Root system; Cotton genetics; Mechanical impedance; Gene expression 155, 41
Root tips; Aldehyde oxidase; Cortex; Nitrate reductase; Maize; Nodal roots; Stele; Xanthine dehydrogenase 155, 49
Rye (Secale); Cyclic hydroxamic acid;b-Glucosidase 155, 67
Saccharum; Microsatellite; Molecular marker; Simple sequence repeats 155, 161
Sakuranetin; Naringenin 7-O-methyltransferase; Oryza sati6a; Phytoalexin; Affinity chromatography; Jasmonic acid 155, 213
Sequence alignment; Glyoxalase I; Triticum aesti6um; Gene duplication; Drosophila melanogaster; Amino acid se-quence 155, 11
Sequential functioning of genes; Plant – microbe interactions; Legume –Rhizobiumsymbiosis;Pisum sati6umL.; Pea mutants; Symbiotic genes; Nodule ultrastructure 155, 75
Simple sequence repeats; Microsatellite; Molecular marker;Sac -charum 155, 161
Somaclonal variations; Pelargonium gra6eolens; Calliclones; Morphotypes; Essential oil profile 155, 133
staurosporine; Arabidopsis plastid v-3 fatty acid desaturase; calyculin A; jasmonic acid; wounding; wound-induced protein kinase 155, 153
Stele; Aldehyde oxidase; Cortex; Nitrate reductase; Maize; Nodal roots; Root tips; Xanthine dehydrogenase 155, 49
Symbiotic genes; Plant – microbe interactions; Legume –Rhizo -biumsymbiosis;Pisum sati6umL.; Pea mutants; Nodule ultra-structure; Sequential functioning of genes 155, 75
Tissue-specific expression; GUS; Maize streak virus; MSV; Coat protein promoter; Transgenic rice 155, 21
Tissue-specific expression; Peroxidase; Rice (Oryza sati6a L.); Wound; Transgenic plants 155, 85
Transgenic plants; Peroxidase; Rice (Oryza sati6aL.); Wound; Tissue-specific expression 155, 85
Transgenic rice; GUS; Tissue-specific expression; Maize streak virus; MSV; Coat protein promoter 155, 21
Transgenic shoots; Artemisia annuaL.; Farnesly diphosphate synthase;Agrobcterium tumefaciens; Artemisinin 155, 179
Triticum aesti7um; Glyoxalase I; Sequence alignment; Gene duplication; Drosophila melanogaster; Amino acid se-quence 155, 11
VfENOD5 gene; cDNA;Vicia fabaL. 155, 169
Vicia fabaL.; cDNA;VfENOD5 gene 155, 169
Virus inoculation; Grapevine; Electroporation;Grape6ine fanleaf
6irus; Protoplasts 155, 203
Water deficit; BarleyHVA1 gene; Biomass productivity; LEA protein; Water use efficiency; Wheat transformation 155, 1
Water use efficiency; BarleyHVA1 gene; Biomass productivity; LEA protein; Water deficit; Wheat transformation 155, 1
Wheat transformation; BarleyHVA1 gene; Biomass productiv-ity; LEA protein; Water deficit; Water use efficiency 155, 1
wound-induced protein kinase;Arabidopsisplastidv-3 fatty acid desaturase; calyculin A; jasmonic acid; staurosporine; wound-ing 155, 153
wounding; Arabidopsisplastid v-3 fatty acid desaturase; caly-culin A; jasmonic acid; staurosporine; wound-induced protein kinase 155, 153
Wound; Peroxidase; Rice (Oryza sati6aL.); Transgenic plants; Tissue-specific expression 155, 85
