References

Akita T, Sagisaka S (1995) Functional and structural differences among proplastids as seen by immunogold staining and electron microscopy. Biosci Biotech Biochem 59:14771484

Aldridge C, Maple J, Moller SG (2005) The molecular biology of plastid division in higher plants. J Exp Bot 56:1061-1077 Alexander L, Grierson D (2002) Ethylene biosynthesis and action in tomato: a model for climacteric fruit ripening. J Exp Bot 53:2039-2055 Andersson MX, Sandelius AS (2004) A chloroplast-localized vesicular transport system: a bioinformatics approach. BMC Genomics 5:40 Armstrong GA, Hearst JE (1996) Genetics and molecular biology of carotenoid pigment biosynthesis. FASEB Review 10:228-237 Arvidsson PO, Sundby C (1999) A model for the topology of the chloroplast thylakoid membrane. Aust J Plant Physiol 26:687-694 Aseeva E, Ossenbuhl F, Eichacker LA, Wanner G, Soll J, Vothknecht UC (2004) Complex formation of Vipp1 depends on its a helical PspA-like domain. J Biol Chem 279:35535-35541

Bathgate B, Purton ME, Grierson D, Goodenough PW (1985) Plastid changes during the conversion of chloroplasts to chromoplasts in ripening tomatoes. Planta 165:197-204 Baumgartner BJ, Rapp JC, Mullet JE (1989) Plastid transcription activity and DNA copy number increase early in barley chloroplast development. Plant Phy siol 89:1011-1018 Bechtel DB, Wilson JD (2003) Amyloplast formation and starch grain development in hard winter wheat. Cereal Chem 80:175-183 Bramley PM (2002) Regulation of carotenoid formation during tomato fruit formation and development. J Exp Bot 53:2107-2113 Bruno AK, Wetzel CM (2004) The early light-inducible protein (ELIP) gene is expressed during the chloroplast-to-chromoplast transition in ripening fruit. J Exp Bot 55:25412548

Camara B, Hugueney P, Bouvier F, Kuntz M, Moneger R (1995) Biochemistry and molecular biology of chromoplast development. Int Rev Cytol 163:175-247 Chaley N, Possingham JV (1981) Structure of constricted proplastids in meristematic plant tissues. Biologie Cellulaire 41:203-210 Clement C, Pacini E (2001) Anther plastids in Angiosperms. Bot Rev 67:54-73 Colletti KS, Tattersall EA, Pyke KA, Froelich JE, Stokes KD, Osteryoung KW (2000) A homologue of the bacterial cell division site-determining factor MinD mediates placement of the chloroplast division apparatus. Curr Biol 10:507-516 Corriveau JL, Coleman AW (1988) Rapid screening method to detect potential biparental inheritance of plastid DNA and results for over 200 Angiosperm species. Am J Bot 75:1443-1458

Cran DG, Possingham JV (1972) Variation in plastid types in spinach. Protoplasma 74:345356

Cunningham FX, Gantt E (1998) Genes and enzymes of carotenoid biosynthesis in plants.

Ann Rev Plant Physiol Plant Mol Biol 49:557-583 Debnam PM, Emes MJ (1999) Subcellular distribution of enzymes of the oxidative pentose phosphate pathway in root and leaf tissues. J Exp Bot 40:1653-1661 Duffus CM (1984) Metabolism of reserve starch. In: Lewis DH (ed) Storage carbohydrates in vascular plants. Cambridge UK: Cambridge University Press Eastmond PJ, Dennis DT, Rawsthorne S (1997) evidence that a malate/inorganic phosphate exchange translocator imports carbon across the leucoplast envelope for fatty acid synthesis in developing castor seed endosperm. Plant Physiol 114:851-856 Ellis JR, Leech RM (1983) Cell size and chloroplast size in relation to chloroplast replication in light-grown wheat leaves. Planta 165:120-125 Emes MJ, Neuhaus HE (1997) Metabolism and transport in non-photosynthetic plastids. J Exp Bot 48:1995-2005

Fester T, Strack D, Hause B (2001) Reorganization of tobacco root plastids during arbuscle development. Planta 213:864-868 Fitter DW, Martin DJ, Copley MJ, Scotland RW, Langdale JA (2002) GLK gene pairs regulate chloroplast development in diverse plant species. Plant J 31:713-727 Forth D, Pyke KA (2006) The suffulta mutation in tomato reveals a novel method of plastid replication during fruit ripening. J Exp Bot 57:1971-1979 Fox SR, Rawsthorne S, Hills MJ (2001) Fatty acid synthesis in pea root plastids is inhibited by the action of long-chain acyl coenzyme as on metabolite transporters. Plant Physiol 126:1259-1265

Fraser PD, Truesdale MR, Bird CR, Schuch W, Bramley PM (1994) Carotenoid biosynthesis during tomato fruit development. Plant Physiol 105:405-413 Fujie M, Kuroiwa H, Kawano S, Kuroiwa T (1994) Behaviour of organelles and their nucleoids in the shoot apical meristem during leaf development in Arabidopsis thaliana L. Planta 194:395-405

Fijiwara M, Nakamura A, Itoh R, Shimada Y, Yoshida S, Moller SG (2004) Chloroplast division site placement requires dimerisation of the ARC11/AtMind1 protein in Arabidopsis. J Cell Sci 117:2399-2410 Fulgosi H, Gerdes L, Westphal S, Glockmann C, Soll J (2002) Cell and chloroplast division requires ARTEMIS. Proc Nat Acad Sci 99:11501-11506 Gao H, Kadirjan-Kalbach D, Froehlich JE, Osteryoung KW (2003) ARC5, a cytosolic dy-namin-like protein from plants, is part of the chloroplast division machinery. Proc Natl Acad Sci USA 100:4328-4333

Gao H, Sage TL, Osteryoung KW (2006) FZL, an FZO-like protein in plants, is a determinant of thylakoid and chloroplast morphology. Proc Natl Acad Sci USA 103:67596764

Glynn JM, Miyagishima S, Yoder DW, Osteryoung KW (2007) Chloroplast division. Traffic 8:451-461

Gutierrez-Nava Mde L, Gillmor CS, Jimenez LF, Guevara-Garcia A, Leon P (2004) CHLOROPLAST BIOGENESIS genes act cell and noncell autonomously in early chloroplast development. Plant Physiol 135:471-482 Gray JC, Sullivan JA, Hibberd JM, Hanson MR (2001) Stromules: mobile protrusions and interconnections between plastids. Plant Biol 3:223-233 Gunning BES (2004) Plant cell biology on CD: information for students and a resource for teachers. www.plantcellbiologyoncd.com Gunning BES (2005) Plastid stromules: video microscopy of their outgrowth, retraction, tensioning, anchoring, branching, bridging, and tip-shedding. Protoplasma 225:33-42 Hans J, Hause B, Strack D, Walter MH (2004) Cloning, characterisation, and immunolocal-ization of a mycorrhiza-inducible 1-deoxy-D-xylulose-5-phosphate reuctoisomerase in arbscule-containing cells of maize. Plant Physiol 134:614-624 Harak H, Lagrange T, Bisanz-Seyer C, Lerbs-Mache S, Mache R (1995) The expression of nuclear genes encoding plastid ribosomal proteins precedes the expression of chloro-plast genes during early phases of chloroplast development. Plant Physiol 108:685-692 Harris WM, Spurr AR (1969a) Chromoplasts of tomato fruits I. Ultrastructure of low-

pigment and high beta mutants. Carotene analyses. Am J Bot 56:369-379 Harris WM, Spurr AR (1969b) Chromoplasts of tomato fruits II. The red tomato. Am J Bot 56:380-389

Haswell ES, Meyerowitz EM (2006) MscS-like proteins control plastid size and shape in

Arabidopsis thaliana. Curr Biol 16:1-11 Hricova A, Quesada V, Micol JL (2006) The SCABRA3 nuclear gene encodes the plastid RpoTp RNA polymerase, which is required for chloroplast biogenesis and mesophyll cell proliferation in Arabidopsis. Plant Physiol 141:942-956 Hugeney P, Bouvier F, Badillo A, Dharlingue A, Kuntz M, Camara B (1995) Identification of a plastid protein involved in vesicle formation and/or membrane-protein translocation. Proc Nat Acad Sci USA 92:5630-5634 Hugueny P, Badillo A, Chen HC, Klein A, Hirschberg J, Camara B, Kuntz M (1995a) Metabolism of cyclic carotenoids: model for the alteration of this biosynthetic pathway in Capsicum annuum. Plant J 8:417-424 Imaizumi-Anraku H, Takeda N, Charpentier M, Perry J, Miwa H, Umehara Y, Kouchi H, Murakami Y, Mulder L, Vickers K, Pike J, Downie JA, Wang T, Sato S, Asamizu E, Tabata S, Yoshikawa M, Murooka Y, Wu GJ, Kawaguchi M, Kawasaki S, Parniske M, Hayashi M (2005) Plastid proteins crucial for symbiotic fungal and bacterial entry into plant roots. Nature 433:527-531 Itoh R, Fujiwara M, Nagata N, Yoshida S (2001) A chloroplast protein homologous to the eubacterial topological specificity factor minE plays a role in chloroplast division. Plant Physiol 127:1644-1655 Josse E-M, Simkin AJ, Gaffe J, Laboure A-M, Kuntz M, Carol P (2000) A plastid terminal oxidase associated with carotenoid desaturation during chromoplast differentiation. Plant Physiol 123:1427-1436

Joyard J, Teyssier E, Miege C, Berny-Seigneurin D, Marechal E, Block MA, Dorne AJ, Rolland N, Ajlani G, Douce R (1998) The biochemical machinery of plastid envelope membranes. Plant Physiol 118:715-723 Kay QON, Daoud HS, Stirton CH (1981) Pigment distribution, light reflection and cell structure in petals. Bot J Linn Soc 83:57-84 Kleffmann T, Hirsch-Hoffmann M, Gruissem W, Baginsky S (2006) plprot: a comprehensive proteome database for different plastid types. Plant Cell Physiol 47:432-436 Kobayashi H, Ngernprasirtsiri J, Akazawa T (1990) Transcriptional regulation and DNA methylation in plastids during transitional conversion of chloroplasts to chromoplasts. EMBO J 9:307-313

Köhler R, Cao J, Zipfel W, Webb W, Hanson M (1997) Exchange of protein molecules through connections of higher plant plastids. Science 276:2039-2042 Köhler R, Hanson M (2000) Plastid tubules of higher plants are tissue-specific and devel-

opmentally regulated. J Cell Sci 113:81-89 Kulandaivelu G, Gnanam A (1985) Scanning electron microscopic evidence for a budding mode of chloroplast multiplication in higher plants. Physiol Plant 63:299-302 Kroll D, Meierhoff K, Bechtold N, Kinoshita M, Westphal S, Vothknecht UC, Soll J, Westhoff P (2001) VIPP1, a nuclear gene in Arabidopsis thaliana essential for thyla-koid membrane formation. Proc Nat Acad Sci USA 98:4238-4242 Kuroiwa H, Mori T, Takahara M, Miyagishima S, Kuroiwa T (2002) Chloroplast division machinery as revealed by immunofluorescence and electron microscopy. Planta 215:185-190

Kwok EY, Hanson MR (2003) Microfilaments and microtubules control the morphology and movement of non-green plastids and stromules in Nicotiana tabacum. Plant J 35:16-26

Kwok EY, Hanson MR (2004) Stromules and the dynamic nature of plastid morphology. J Microsc 214:124-137

Kwok EY, Hanson MR (2004a) In vivo analysis of interactions between GFP-labelled microfilaments and plastid stromules BMC. Plant Biol 4:2 Kwok EY, Hanson MR (2004b) Plastids and stromules interact with the nucleus and cell membrane in vascular plants. Plant Cell Rep 23:188-195 Langeveld SMJ, Van Wijk R, Stuurman N, Kijne JW, de Pater S (2000) B-type granule containing protrusions and interconnections between amyloplasts in developing wheat endosperm revealed by transmission electron microscopy and GFP expression. J Exp Bot 51:1357-1361

Lawrence SD, Cline K, Moore GA (1993) Chromoplast targeted proteins in tomato (Ly-

copersicon esculentum Mill.) fruit. Plant Physiol 102:789-794 Lawrence SD, Cline K, Moore GA (1997) Chromoplast development in ripening tomato fruit: identification of cDNAs for chromoplast-targeted proteins and characterisation of a cDNA encoding a plastid-localised low molecular weight heat shock protein. Plant Mol Biol 33:483-492

Livne A, Gepstein S (1988) Abundance of the major chloroplast polypeptides during development and ripeninjg of tomato fruits. Plant Physiol 87:239-243 Lohse S, Schliemann W, Ammer C, Kopka J, Strack D, Fester T (2005) Organization and metabolism of plastids and mitochondria in arbuscular mycorrhizal roots of Medicago truncatula. Plant Physiol 139:329-340

Lois LM, Rodriguez-Concepcion M, Gallego F, Campos N, Boronat A (2000) Carotenoid biosynthesis during tomato fruit development: regulatory role of 1-deoxy-D-xylulose 5-phosphate synthase. Plant J 22:503-513 Lopez EJ, Pyke KA (2005) Plastids unleashed: their development and their integration in plant development. Int J Dev Biol 49:557-577 Lopez EJ (2007) Plastid biogenesis, between shadows and light. J Exp Bot 58:11-26 Ljubicic JM, Wrischer M, Ljubicic N (1998) Formation of the photosynthetic apparatus in plastids during greening of potato microtubules. Plant Physiol Biochem 36:747-752 Lyndon RF, Robertson ES (1976) The quantitative ultrastructure of the pea shoot apex in relation to leaf initiation. Protoplasma 87:387-402 Mache R, Zhou D-X, Lerbs-Mache S, Harrak H, Villain PM, Gauvin S (1997) Nuclear control of early plastid differentiation. Plant Physiol Biochem 35:199-203 Majeran W, Cai Y, Sun Q, van Wijk KJ (2005) Functional differentiation of bundle sheath and mesophyll maize chloroplasts determined by comparative proteomics. Plant Cell 17:3111-3140

Maple J, Fujiwara MT, Kitahata N, Lawson T, Baker NR, Yoshida S, Moller SG (2004) GIANT CHLOROPLAST 1 essential for correct chloroplast division site placement in Arabidopsis. Curr Biol 14:776-781 Maple J, Aldrige C, Meller SG (2005) Plastid division is mediated by combinatorial assembly of plastid division proteins. Plant J 43:811-823 Marrison JL, Rutherford SM, Robertson EJ, Lister C, Dean C, Leech RM (1999) The distinctive roles of five different ARC genes in the chloroplast division process in Arabi-dopsis. Plant J 18:776-781 McAndrew RS, Froehlich JE, Vitha S, Stokes KD, Osteryoung KW (2001) Co-localization of plastid division proteins in the chloroplast stromal compartment establishes a new functional relationship between FtsZ1 and FtsZ2 in higher plants. Plant Physiol 127:1656-1666

Miyagishima S, Takahara M, Kuroiwa T (2001) Novel filaments 5 nm in diameter constitute the cytosolic ring of the plastid division apparatus. Plant Cell 13:707-721 Miyagishima S, Nishida K, Mori T, Matsuzaki M, Higashiyama T, Kuroiwa H, Kuroiwa T (2003) A plant-specific dynamin-related protein forms a ring at the chloroplast division site. Plant Cell 15:655-665 Miyagishimaa S, Froehlichb JE, Osteryoung KW (2006) The outer envelope protein PDV, together with its paralogue PDV, mediates recruitment of the dynamin-related protein ARC5 to the plastid division site in Arabidopsis. Plant Cell 18:2517-2530 Mogensen HL (1996) The hows and whys of cytoplasmic inheritance in seed plants. Am J Bot 83:383-404

Moller SG (2004) Plastids. Annual Plant Reviews Vol. 13. Oxford: Blackwell Publishing Morre DJ, Sellden G, Sundqvist C, Sandelius AS (1991) Stromal low temperature compartment derived from inner membrane of the chloroplast envelope. Plant Physiol 97:1558-1564

Mustardy L, Garab G (2003) Granum revisited. A three-dimensional model - where things fall into place. Trends Plant Sci 8:117-122 Negm FB, Cornel FA, Plaxton WC (1995) Suborganellar organization and molecular characterization of nonproteolytic degraded leucoplast pyruvate kinase from developing endosperm of castor oil seeds (Ricinus communis). J Exp Bot 34:712-718 Osteryoung KW, Vierling E (1995) Conserved cell and organelle division. Nature 376:473474

Osteryoung KW, Stokes KD, Rutherford SM, Percival AL, Lee WY (1998) Chloroplast division in higher plants requires members of two functionally divergent gene families with homology to bacterial,ftsZ. Plant Cell 10:1991-2004 Park JM, Cho JH, Kang SG, Jang HJ, Pih KT, Piao HL, Cho MJ, Hwang I (1998) A dy-namin-like protein in Arabidopsis thaliana is involved in biogenesis of thylakoid membrane. EMBO J 17:859-867 Pyke KA (1997) The genetic control of plastid division in higher plants. Am J Bot 84:10171027

Pyke KA (1999) Plastid division and development. Plant Cell 11:549-556 Pyke KA (2006) Plastid division: the squeezing gets tense. Curr Biol 16:R60-R62 Pyke K, Leech RM (1992) Chloroplast division and expansion is radically altered by nuclear mutations in Arabidopsis thaliana. Plant Physiol 99:1005-1008 Pyke KA, Leech RM (1994) A genetic analysis of chloroplast division and expansion in Arabidopsis thaliana. Plant Physiol 104:201-207

Pyke KA, Howells CA (2002) Plastid and stromule morphogenesis in tomato. Ann Bot 90:559-566

Pyke KA, Rutherford SM, Robertson EJ, Leech RM (1994) arc6, a fertile Arabidopsis mutant with only two mesophyll cell chloroplasts. Plant Physiol 106:1169-1177 Reski R (2002) Rings and networks: the amazing complexity of FtsZ in chloroplasts.

Trends Plant Sci 7:103-105 Robertson EJ, Pyke KA, Leech RM (1995) arc6, a radical chloroplast division mutant of Arabidopsis also alters proplastid proliferation and morphology in shoot and root apices. J Cell Sci 108:2937-2944 Romer S, d'Harlingue A, Camara B, Schantz R, Kuntz M (1992) Cysteine synthase from Capsicum annum chromoplasts. Characterization and cDNA cloning of an up-regulated enzyme during fruit development. J Biol Chem 267:17466-17470 Rudellaa A, Frisoa G, Alonsob JM, Ecker JR, van Wijk KJ (2006) Downregulation of ClpR2 leads to reduced accumulation of the ClpPRS protease complex and defects in chloroplast biogenesis in Arabidopsis. Plant Cell 18:1704-1721 Sakai A, Kawano S, Kuroiwa T (1992) Conversion of proplastids to amyloplasts in tobacco cultured cells is accompanied by changes in the transcriptional activities of plastid genes. Plant Physiol 100:1062-1066 Sakai A, Susuki T, Sasaki N, Kuroiwa T (1999) Plastid gene expression during amyloplast formation in cultured tobacco cells. J Plant Physiol 154:71-78 Sakai A, Susuki T, Miyazawa Y, Kawano S, Nagata T, Kuroiwa T (1998) Comparative analysis of plastid gene expression in tobacco chloroplasts and proplastids: relationship between transcription and transcript accumulation. Plant Cell Physiol 39:581-589 Sheahan MB, Rose RJ, McCurdy DW (2004) Organelle inheritance in plant cell division: the actin cytoskeleton is required for unbiased inheritance of chloroplasts, mitochondria and endoplasmic reticulum in dividing protoplasts. Plant J 37:379-390 Shimada H, Koizumi M, Kuroki K, Mochizuki M, Fujimoto H, Ohta H, Masuda T, Ta-kamiya K (2004) ARC3, a chloroplast division factor, is a chimera of prokaryotic FtsZ and part of eukaryotic phosphatidylinositol-4-phosphate 5-kinase. Plant Cell Physiol 45:960-967

Shimoni E, Rav-Hon O, Ohad I, Brumfeld V, Reich Z (2005) Three-dimensional organization of higher plant chloroplast thylakoid membranes revealed by electron tomography. Plant Cell 17:2580-2586

Smith AM, Denyer K, Martin C (1997) The synthesis of the starch granule. Ann Rev Plant

Physiol Mol Biol 48:67-87 Swarup R, Kramer EM, Knox K, Leyser HMO, Haseloff J, Beemster GTS, Bhalerao R, Bennett MJ (2005) Root gravitropism requires lateral root cap and epidermal cells for transport and response to a mobile auxin signal. Nat Cell Biol 7:1057-1065 Summer EJ, Cline K (1999) Red bell pepper chromoplasts exhibit in vitro import competency and membrane targeting of passenger proteins from the thylakoid Sec and delta pH pathways but not the chloroplast signal recognition particle pathway. Plant Physiol 119:575-584

Tavva VS, Collins GB, Dinkins RD (2006) Targeted overexpression of the Escherichia coli MinC protein in higher plants results in abnormal chloroplasts. Plant Cell Rep 25:341348

Thomson WW, Whatley JM (1980) Development of non-green plastids. Ann Rev Plant Physiol 31:375-394

Ting JTL, Wu SSH, Ratnayake C, Huang AHC (1998) Constituents of the tapetosomes and elaioplasts in Brassica campestris tapetum and their degradation and retention during microsporogenesis. Plant J 16:541-551 Thomson WW, Lewis N, Coggins CW (1967) The reversion of chromoplasts to chloroplasts in Valencia oranges. Cytologia 32:117-124 Tobin EM (1997) Renewing an old view of chloroplasts. Trends Plant Sci 2:405-406 Vishnevetsky M, Ovadis M, Vainstein A (1999) Carotenoid sequestration in plants: the role of carotenoid associated proteins. Trends Plant Sci 4:232-235 Vitha S, McAndrew RS, Osteryoung KW (2001) FtsZ ring formation at the chloroplast division site in plants. J Cell Biol 153:111-119 Vitha S, Froehlich JE, Koksharova O, Pyke KA, van Erp H, Osteryoung KW (2003) ARC6 is a J-domain plastid division protein and an evolutionary descendant of the cyanobac-terial cell division protein Ftn2. Plant Cell 15:1918-1933 Virgin HI, Sundquist C (1992) Pigment formation in potato tubers (Solanum tuberosum)

exposed to light following darkness. Physiol Plant 86:587-592 Waters M, Fray R, Pyke K (2004) Stromule formation is dependent upon plastid size, plastid differentiation status and the density of plastids within the cell. Plant J 39:655-667 Wang Q, Sullivan RW, Kight A, Henry RL, Huang J, Jones AM, Korth KL (2004) Deletion of the chloroplast-localized Thylakoid formation1 gene product in Arabidopsis leads to deficient thylakoid formation and variegated leaves. Plant Physiol 136:3594-3604 Whatley JM (1983) The ultrastructure of plastids in roots. Int Rev Cytol 85:175-220 Weston EA, Pyke KA (1999) Developmental ultrastructure of cells and plastids in the petals of Wallflower (Erysimum cheiri). Ann Bot 84:763-769 Westphal S, Soll J, Vothknecht UC (2003) Evolution of chloroplast vesicle transport. Plant

Cell Physiol 44:217-222 Wildman S, Hongladarom T, Honda S (1962) Chloroplasts and mitochondria in living plant cells: cinephotomicrographic studies. Science 138:434-435 Wildman SG (1967) The organization of grana-containing chloroplasts in relation to location of some enzymatic systems concerned with photosynthesis, protein synthesis, and ribonucleic acid synthesis. In: Goodwin TW (ed) Biochemistry of Chloroplasts Vol. 2. London: Academic Press pp 295-319 Yamamoto K, Pyke KA, Kiss JZ (2002) Reduced gravitropism in inflorescence stems and hypocotyls, but not roots, of Arabidopsis mutants with large plastids. Physiol Planta 114:627-636

Yasumura Y, Moylan EC, Langdale JA (2005) A conserved transcription factor mediates nuclear control of organelle biogenesis in anciently diverged land plants. Plant Cell 17:1894-1907

Yoshida Y, Kuroiwa H, Misumi O, Nishida K, Yagisawa F, Fujiwara T, Nanamiya H, Kawamura F, Kuroiwa T (2006) Isolated chloroplast division machinery can actively constrict after stretching. Science 313:1435-1438 Ytterberg JA, Peltier J-B, van Wijk KJ (2006) Protein profiling of plastoglobules in chloro-plasts and chromoplasts. A surprising site for differential accumulation of metabolic enzymes. Plant Physiol 140:984-997 Zeeman SC, Smith SM, Smith AM (2004) The breakdown of starch in leaves. New Phytol 163:247-261

Zhang Q, Liu Y, Sodmergen (2003) Examination of the cytoplasmic DNA in male reproductive cells to determine the potential for cytoplasmic inheritance in 295 Angiosperm species. Plant Cell Physiol 44:941-951

Pyke, Kevin

Plant Sciences Division, School of Biosciences, University of Nottingham, Sutton Bonington Campus, Loughborough, Leicestershire LE12 7RD [email protected]

Was this article helpful?

0 0

Post a comment