SUBJECT INDEX Acinetobacter calcoaceticus Air-seeding shikimate pathway and, 482 pressure probe and, 463 49) Al,(SOx4) Acquisition gametophyte in ferns and, 166 leaf development in 16 angiosperms and, 428-29 Alanine m and, 226-28 phosphate, 665-86 trate reductase and, 290-92, Acs genes 295 650, 652-55 cellulose biosynthesis and Alcaligenes eutrophus 50S] nitrate reductase and, 286 Activation-transferred DNA Aldolases lagging mutants history of research, 11 signal transduction and, 238 Alfafuran on and, 205-6 Activators phosphate acquisition and, 671 d metabolism cellulose biosynthesis and Alfaifa 245-70 phosphate acquisition and, 671 evelopment in Adenosine diphosphate (ADP) plant protein serine/threonine 66, 178, 181 phosphate translocators in kinases and, 115, 117 plastids and, 34, 39-40 Algae Adenosine triphosphate (ATP) asymmetric cell division and chlorophyll degradation and 505-32 history of research, 11, 21 cellulose biosynthesis and phosphate acquisition and, 67 247-49, 254 674 chlorophyll degradation and phospth ate translocatorsi n 71 1. 86 plastids and, 29-30, 34 CO) concentrating mechanisms 3 in photosynthetic t protein serine/threonin microorganisms and kinases and, 108 water-water cycle in DOXP pathway of isoprenoid chioroplasts ar biosynthesis and, 48-6] Adenylate translocat history of research, 10-11, 20, phosphate translocators i 22 plastids and, 34 nitrate reductase and, 277 Adiantum capillus verer 288, 291, 297 gametophyte development phosphate acquisition and ferns and, 172-73 672 Adoptior photoprotection and, 333 silicon and, 650 silicon and, 641, 645 16.2 mutant Allergens photoprotection and, 336 grass pollen Agavaceae cell wall extensibility and silicon and, 647 403 Agrobacterium rhizogene lum porrun and arbuscular mycorrhizal arbuscular mycorrhizal symbiosis and, 363 symbiosis and, 374 and Agrobacterium tumefaciens Allosteric sites cellulose biosynthesis and, shikimate pathway and, 478 250-52, 255 486 cell wall extensibility and, 409 Aloe arborescens crassulacean acid metabolisn crassulacean acid metabolism and, 671 and, 311, 323-24 and, 311, 322 plant protein serine/threonine Alteration of generations evelopment in kinases and, 100 gametophyte development in 66 shikimate pathway and, 486-87 ferns and, 163, 167 719 720 SUBJECT INDEX symbiosis and ymDIos! and expres xtensidil 404-5 radat sloc a ds and ) serine > terminal signal s j ¢ ( Jeve lopment zametophyte development ferns and 8 Amphibious sedge C4 gene expressior 90, 205-6 An UOT spp shikimate pathway and, 482 489-90 Amyloplasts silicon ¢ phosphate translocators ir Annual br plastids and, 32 silicon Antennae *I] wall extensibility concentrating me n ; light-harvesting 400-10 in photosynthetic photoprotection an chlorophyll degradatior microorganisms and 340-4 71, 80, 84 SUBJECT INDEX way of isoprenoid ren amb, 509. hesis and, 53, 59 y and e development a 1 wve;rview prosper 509. S511 en developmen adial pz nittrroodduucc t VMOM-2 SUBJECT INDEX Bundle sheatt scellaneous photosynthe 196 nsgenic pla expression analysi 199.20)? d. 646 aboratory 9 expression and, 2U5 etabolism crassulacean acid metabolism anwdi, 2592 9 Bryophytes mutant arbuscular corrhiza photoprotection and, 3 symbiosis and, 361-80 Caenorhabditis elegans chlorophyll degradation and, 86 asymmetric cell division and silicon and, 649 511-13 SUBJECT INDEX 723 2 concentrating mechanisms *arotenoids ate pathway and, 490 in photosynthetic DOXP pathway of isoprenoid microorganisms and biosynthesis and, 47-62 ne expression and, 195-96 546-55 photoprotection and, 347-48 crassulacean acid metabolism “aryophalles esis and and, 310 crassulacean acid metabolism DOXP pathway of isoprenoid and, 322 acid metabolism biosynthesis and, 49-5] ascades 317, 320-21 history of research, 57 9 3 leaf development in reductase and, 295 leaf development in angiosperms and, 421 ate acquisition and, 670 angiosperms and, 420 silicon and, 656 acclimation and, phosphate acquisition and “asein kinase I/II subfamilies 669 plant protein serine/threonine serine/threonine phosphate translocators in kinases and, 119-20 s and, 104 plastids and, 27-29 “asparian strips pathw ay and, 490 31-33, 38, 40-41 roots in soil and, 711 d, 641, 647-48, 654 shikimate pathway and, 487 Catabolism i ident protein kinase 489, 492 chlorophyll degradation and, CDPK) subfamily “arbon dioxide (CO>) 67-87 nt protein serine/threonine C4 gene expression and, 188 atalysis s and, 104-7 concentrating mechanisms in cellulose biosynthesis and, photosynthetic 245-70 nthesis and, microorganisms atharanthus roseus acclimation to changing CO DOXP pathway of isoprenoid level, 541-45 biosynthesis and, 51, 57 biogeochemical aspects phosphate acquisition and, 681 561 auliflower carboxylation site, 545-59 phosphate translocators in carboxysomes, 557-58 plastids and, 31-32, 34 pression and, cyanobacteria, 549-52 avitation 90. 209 ecophysiology 560-62 pressure probe and, 462-64 y of isoprenoid eukaryotes, 552 cobb mutants synthesis and, 61 future research, 562 CO) concentrating mechanisms ate acquisition and, 674 gene expression, 542-44 in photosynthetic 345. 350 HCO;, 551-55 microorganisms and, 545, inorganic carbon membrane 558 transport, 546-55 BF/DREB|! regulatory genes introduction, 540-41 plant cold acclimation and, 571 photosynthetic electron 579-80, 585-89 transport, 555-57 cm mutants pyrenoids, 558-60 CO) concentrating mechanisms signal inducing response in photosynthetic gradation and, 80 544-45 microorganismasnd , 558 history of research, 5-6, 8, 10 cdc2 genes ld acclimation and 19-21, 24 plant protein serine/threonine nocturnal fixation kinases and, | 1 18 annuum crassulacean acid edar » pathway and, 483 metabolism and silicon and, 658 305-24 el genes 1 acid metabolism phosphate translocators in cell wall extensibility and, 407 10524 plastids and, 39 409 research, 5-8, 10-11, Carboxylation site ell cycle CO) concentrating mechanisms asymmetric cell division and 10sphate acquisition and, 675 in photosynthetic 505-32 phosphate translocators in microorganisms and, gametophyte development in plastids and, 32 545-60 ferns and, 168, 170, 172 ate pathway and, 473 Carboxysomes plant protein serine/threonine id, 658 CO) concentrating mechanisms kinases and, 97-123 in photosynthetic ‘ell death ll degradation and, microorganisms and, chlorophyll! degradation and RS 539-62 . 85-86 724 SUBJECT INDEX Cell extensibility CQO» concentrating mechanisms binding to wall, 398-99 n photosynthetic licots 407-9 microorganisms and, 542 endogluh canases 405-9 544 559 expansins, 396-97 DOXP pathway of isoprenoid x-expansins, 397-402 biosynthesis and 49 56 B-expansins, 402-4 litrate reductase and IRS gene expression, 40] rinaf2Fo ) mutant grasses, 406 photoprotection and, 344 group-! grass pollen allerg 393 94 405 403 solutes SIlCcONn anc 646 hydroxy | radicals, 44 ] 65 introduction 39? cells 401 mechani of action polysaccharide hydr« adation 404-9 aboli enzymes mode! of catabo c pathway tensit n, 41 il death RS 86 phyllase endotransg! 409-10 fate determinants nisms, 86 asymmetric cell d lorophy ll turnover, 69-70 505-32 loropiast to chromopilast growth tion 69 lant protein serine 1 associated wit! kinases and, 97 net loss. 71-80 Cellulases gradation during as ymMiy chlorophyll biosynthesis i} biosynthesis legradation without 1 ss 69-71 ‘ ” volution of degradation DOXP p atnway tf tsoprenoid Dbiosynthesi 84 1 products of degradation < callose sy hydroxylation 263-64 dentification catalysis introduction 6S cellulases merethty hvelsetsteer ase CeSA genes DOXP pathy isoprenoid Mg-dechelatase CeSA protein, 2 biosy nthesis and > PaO pathway, 80—82 Dict ste TT 56. 59 60 pi henology of net loss, 71 264—65 history of esear h | pheophorbide a oxygenase early studies (1950-1980 phosphate acqu sition and 7-79 246-47 photoprotec ion and phytochrome future research, 269-70 341-43 346 48 phytol, 72 genetics 257 64 1 re a spp plastids, 68-69, 87 glycosyltansferase chlorophyil degradation and products, 72-75 superfamily, 2 73, 75 R6—R7 RCC reductase SUBJECT INDEX 725 1f breakdown, Citrus sinensis Cold acclimation silicon and, 651 Arabidopsis COR genes, e benefits, 84-85 CLAI gene 77-80 erization, 79 DOXP pathway of isoprenoid Arabidopsis eskimo] gene, yrrolic catabolites biosynthesis and, 60 582-83 Cladophera spp Arabidopsis Hos! gene, 593-94 ( hl hut cellulose biosynthesis and, 249 {rabidopsis SFR genes, 581-82 De XP | ay of isoprenoid 254 CBF/DREB] regulatory genes, and, 48 pressure probe and, 45 579-80, 585-89 CLAVATA genes abscisic acid, 589-92 and leaf development in calcium, 592-93 angiosperms and, 422 cold-regulated genes, 574-81 adation and plant protein serine. threonine conservation S8Y kinases and, 100, 113 freezing injury and tolerance trating mechanisms Clematis vitisalba mechanisms, 573-74 osyntnetic DOXP pathway of isoprenoid freezing tolerance genes, 1isms and, 562 biosynthesis and, 57 $74 R5 7 ay ol isoprenoid Cloning future research, 594 Nesis and, 47-50 cellulose biosynthesis and introduction, 572-73 58-62 245-70 low temperature regulation, development in chlorophyll degradation and 587-29 1 1/4 83 low temperature signal DOXP pathway of isoprenoid transduction, 592-93 biosynthesis and, 60 mapping, 583-85 gametophyte development in mutational analysis, 581-83 ferns and, 163, 168 regulation, 585-92 leaf development in spinach CAP genes, 580-81 4] angiosperms and, 430. wheat Vrn/-Fr/ interval phosphate acquisition and 583-585 wway and, 473 684 ¢ oleoptiles and, 601 plant protein serine/threonine cell wall extensibility and, kinases and, 98-100, 104 406-7 thway and 114 chlorophyll degradation and, 69 487 shikimate pathway and, 476 Combinatorial enhancers/silencers 483 C4 gene expression and ilicon and, 658 187-210 stridium celiutovorans Compartmentation cell wall extensibility and crassulacean acid metabolism 39899 and, 319 Clover DOXP pathway of isoprenoid silicon and biosynthesis and, 52 Clusia spp Complexity crassu acean acid metabolism leaf development in and 310 318 angiosperms and, 419 CLUSTREI program phosphate acquisition and } plant protein ser e/threonine 680-82 DOXP pathway of isoprenoid kinases and, 103 roots in soil and, 695 <4 cmpA mutant Compound leaves IM DNA CO> conc g mechanisms leaf development in and 404 in photosynthetic angiosperms and, 419-20 microorganisms and 431-39 1 metabolism 556 ; ( onjugation Coc myxa spp chlorophyll degradation and latory mutants CO), concentrating mechanisms 73,79 nate pathway and, 478 in photosynthetic Conocephalum conicum s€ microorganisms and, 559 DOXP pathway of isoprenoid f research Cofactors biosynthesis and, 56 ute acquisition and, 670 nitrate reductase and, 282-83 Conservation Cohesion theory plant cold acclimation and, 589 research, 10-11, 21 pressure probe and, 460 Convergent evolution acquisition and, 670 462-64 shikimate pathway and, 481 726 SUBJECT INDEX Cooperation introduction, 306—7 Cyanidium spp DOXP pathway of isoprenoid 1etabolite compartmentation DOXP pathway of isoprenoid biosynthesis and, 53-54 and transport, 319 biosynthesis and, 51, 54 p mutant molecular evolution, 321-22 yanobacteria gametophyte development permutations, 308-10 CO» concentr mechanisms ferns and, 173 plasticity in photosynthetic Copper posttranscr silicon and, 648 ptis japonica DOXP pathway of isoprenoid shikimate pathway and, 479 mbiosynthesis 2 Copy DNA (cDNA er-waler Cyciec arbuscular mycorrhizal symbiosis and agen e expression and cellulose biosynthesis and wall extensibility and 403—4. 406 hlorophyll degradatior crassulacean acid metab phate acquisit phosphate translocators plastids and, 33 plant protein serine/threonine Kinases and YY te pathway and, 473 6. 480. 483-84. 488. 49% and, 650, 658 rearranget DOXP pathwa biosynthesis n soil and, 695 silicon and, 653—54 emperviren hikimate pathway and, 485 ryneDacterium Spp DOXP pathway of isopren biosynthesis and, 5 mn llulose biosynthesis ucumber 250-51, 262, 26 cell wall extensibility and, 401 | extensibility licon and, 651 silicon and, 650, 65¢€ pt e acquisition and Cotyledons ucumi itivu | transduction and C4 gene expression anc silicon and, 650 2, 238-39 mutants ucurdita per ytopiasm gametophyte developmer pressure probe a 5 cellulose biosynthesis and, 25 ferns and, 166 “e genes chlorophyll degradation and Crassulacean acid phosphate translocators in DOXP pathway of isoprenoid history of research, 19 plastids and, 4 biosynthesis and, 54 metabolism ulm gametophyte development in C4 gene expression and, 205 cellulose biosynthesis and ferns and, 169 circadian rhythms, 317 62 history of research, 20 definitions, 307-8 uZn-superoxide dismutase nitrate reductase and, 296 future research, 323-24 water-water cycle in phosphate acquisition and genetics, 310-19 chloroplasts and, 610—11 SUBJECT INDEX 727 3-Dehydroshikimate water-water cycle in c cell division and, shikimate pathway and, 482 chloroplasts and, 616-1 490-9] Diatoms resis and 3-Deoxy-D-arabino-heptulosonate chlorophyll degradation and, SO elopment in phosphate translocators ir nitrate reductase and, 280-81 181 plastids and, 3 silicon and, 641, 645, 650 and, 490 hikin athway an 658 489-90 2,6-Dichlorobenzonitrile (DCB) or -ox y-iD -arabino-heptulosonate cellulose biosynthesiasnd , 261 206 phosphate synthase Dicots adation and, hikimate pathway and Cy, gene 1osperms 430 phosphate acquisition and silicon and, 647, 649-50 md cellulose biosy 264-65 deoxy ylul plastids and deoxy xyl € lim mutants gametophyte development it ferns a 66 ageliate chlorophyll de scorea spp renoid ntroduct at development sé 6 angigi e mavion ater cycl chloroplasts and, 609 615-16 tior excess photons aler-water cyc chloroplasts and, 601-29 zrowth pattern phosphate translocators in leaf plastids and, 40 angiosperms and Diversity ( 2ene Expression anc C4 gene expression and, 204—8 and, 481-83 192-93 gametophyte development in synthase silicon and, 641, 650—52 ferns and, 164, 171 way and, 479-8] DHA reductase roots in soil and. 695-712 SUBJECT INDEX pidermal differentiation and, 256 leaf development in nosperms and, 430-31 growth ff actor (EGF) ine/threonin 200) phosphate translocators in abolism plastids and, 35 I pathway and 485, 488. 490 cold acclimation and t research 5822 -835 reductase and 17 Essentiality tection and silicon and, 641-42, 644-47