Ahlert D, Ruf S, Bock R (2003) Plastid protein synthesis is required for plant development in tobacco. Proc Natl Acad Sci USA 100:15730-15735 Birch-Machin I, Newell CA, Hibberd JM, Gray C (2004) Accumulation of rotavirus VP6 protein in chloroplasts of transplastomic tobacco is limited by protein stability. Plant Biotech J 2:261-270

Bock R, Maliga P (1995) In vivo testing of a tobacco plastid DNA segment for guide RNA

function in psbL editing. Mol Gen Genet 247:439-443 Boynton JE, Gillham NW, Harris EH, Hosler JP, Johnson AM, Jones AR, Randolph-Anderson BL, Robertson D, Klein TM, Shark KB, et al. (1988) Chloroplast transformation in Chlamydomo-nas with high velocity microprojectiles. Science 240:1534-1538 Carrer H, Maliga P (1995) Targeted Insertion of Foreign Genes into the Tobacco Plastid Genome without Physical Linkage to the Selectable Marker Gene. Nat Biotechnol 13:791-794 Carrer H, Hockenberry TN, Svab Z, Maliga P (1993) Kanamycin resistance as a selectable marker for plastid transformation in tobacco. Mol Gen Genet 241:49-56 Cerutti H, Osman M, Grandoni P, Jagendorf AT (1992) A homolog of Escherichia coli RecA

protein in plastids of higher plants. Proc Natl Acad Sci USA 89:8068-8072 Corneille S, Lutz K, Svab Z, Maliga P (2001) Efficient elimination of selectable marker genes from the plastid genome by the CRE-lox site-specific recombination system. Plant J 27:171-178

Daniell H, Muthukumar B, Lee SB (2001) Marker free transgenic plants: engineering the chloroplast genome without the use of antibiotic selection. Curr Genet 39:109-116

De Cosa B, Moar W, Lee SB, Miller M, Daniell H (2001) Overexpression of the Bt cry2Aa2

operon in chloroplasts leads to formation of insecticidal crystals. Nat Biotechnol 19:71-74 De Marchis F, Wang Y, Stevanato P, Arcioni S, Bellucci M (2009) Genetic transformation of the sugar beet plastome. Transgenic Res 18:17-30 Dufourmantel N, Pelissier B, Garcon F, Peltier G, Ferullo JM, Tissot G (2004) Generation of fertile transplastomic soybean. Plant Mol Biol 55:479-489 Eibl C, Zou Z, Beck a, Kim M, Mullet J, Koop HU (1999) In vivo analysis of plastid psbA, rbcL and rpl32 UTR elements by chloroplast transformation: tobacco plastid gene expression is controlled by modulation of transcript levels and translation efficiency. Plant J 19: 333-345

Golds T, Maliga P, Koop H-U (1993) Stable plastid transformation in PEG-treated protoplasts of

Nicotiana tabacum. Bio/Technology 11:95-97 Gould SB, Waller RF, McFadden GI (2008) Plastid evolution. Annu Rev Plant Biol 59:491-517 Hager M, Bock R (2000) Enslaved bacteria as new hope for plant biotechnologists. Appl Microbiol Biotechnol 54:302-310

Hajdukiewicz PT, Gilbertson L, Staub JM (2001) Multiple pathways for Cre/lox-mediated recombination in plastids. Plant J 27:161-170 Hennig A, Bonfig K, Roitsch T, Warzecha H (2007) Expression of the recombinant bacterial outer surface protein A in tobacco chloroplasts leads to thylakoid localization and loss of photosynthesis. FEBS J 274:5749-5758 Hou B-K, Zhou Y-H, Wan L-H, Zhang Z-L, Shen G-F, Chen Z-H, Hu Z-M (2003) Chloroplast

Transformation in Oilseed Rape. Transgenic Res 12:111-114 Huang FC, Klaus SM, Herz S, Zou Z, Koop HU, Golds TJ (2002) Efficient plastid transformation in tobacco using the aphA-6 gene and kanamycin selection. Mol Genet Genomics 268:19-27 Iamtham S, Day A (2000) Removal of antibiotic resistance genes from transgenic tobacco plastids.

Nat Biotechnol 18:1172-1176 Kanamoto H, Yamashita A, Asao H, Okumura S, Takase H, Hattori M, Yokota A, Tomizawa K (2006) Efficient and Stable Transformation of Lactuca sativa L. cv. Cisco (lettuce) Plastids. Transgenic Res 15:205-217 Kim J, Mullet JE (1994) Ribosome-binding sites on chloroplast rbcL and psbA mRNAs and light-

induced initiation of D1 translation. Plant Mol Biol 25:437-448 Klaus SM, Huang FC, Eibl C, Koop HU, Golds TJ (2003) Rapid and proven production of transplastomic tobacco plants by restoration of pigmentation and photosynthesis. Plant J 35: 811-821

Klein TM, Wolf ED, Wu R, Sanford JC (1987) High-velocity microprojectiles for delivering nucleic acids into living cells. Nature 327:70-73 Knoblauch M, Hibberd JM, Gray JC, van Bel AJ (1999) A galinstan expansion femtosyringe for microinjection of eukaryotic organelles and prokaryotes. Nat Biotechnol 17:906-909 Koop HU, Steinmuller K, Wagner H, Rossler C, Eibl C, Sacher L (1996) Integration of foreign sequences into the tobacco plastome via polyethylene glycol-mediated protoplast transformation. Planta 199:193-201 Kumar S, Dhingra A, Daniell H (2004a) Plastid-expressed betaine aldehyde dehydrogenase gene in carrot cultured cells, roots, and leaves confers enhanced salt tolerance. Plant Physiol 136:2843-2854

Kumar S, Dhingra A, Daniell H (2004b) Stable transformation of the cotton plastid genome and maternal inheritance of transgenes. Plant Mol Biol 56:203-216 Kuroda H, Maliga P (2001a) Complementarity of the 16S rRNA penultimate stem with sequences downstream of the AUG destabilizes the plastid mRNAs. Nucleic Acids Res 29:970-975 Kuroda H, Maliga P (2001b) Sequences downstream of the translation initiation codon are important determinants of translation efficiency in chloroplasts. Plant Physiol 125:430-436 Kuroda H, Maliga P (2003) The plastid clpP1 protease gene is essential for plant development. Nature 425:86-89

Lee L-Y, Gelvin SB (2008) T-DNA binary vectors and systems. Plant Physiol 146:325-332

Lee SM, Kang K, Chung H, Yoo SH, Xu XM, Lee SB, Cheong JJ, Daniell H, Kim M (2006) Plastid transformation in the monocotyledonous cereal crop, rice (Oryza sativa) and transmission of transgenes to their progeny. Mol Cells 21:401-410 Liu CW, Lin CC, Chen JJ, Tseng MJ (2007) Stable chloroplast transformation in cabbage (Brassica oleracea L. var. capitata L.) by particle bombardment. Plant Cell Rep 26:1733-1744 Lohse M, Drechsel O, Bock R (2007) OrganellarGenomeDRAW (OGDRAW): a tool for the easy generation of high-quality custom graphical maps of plastid and mitochondrial genomes. Curr Genet 52:267-274

Lossl A, Bohmert K, Harloff H, Eibl C, Muhlbauer S, Koop H-U (2005) Inducible Trans-activation of Plastid Transgenes: Expression of the R. eutropha phb Operon in Transplastomic Tobacco. Plant Cell Physiol. 46:1462-1471 Lutz KA, Maliga P (2007) Construction of marker-free transplastomic plants. Curr Opin Biotech-nol 18:107-114

Lutz KA, Maliga P (2008) Plastid genomes in a regenerating tobacco shoot derive from a small number of copies selected through a stochastic process. Plant J 56:975-983 Lutz KA, Knapp JE, Maliga P (2001) Expression of bar in the plastid genome confers herbicide resistance. Plant Physiol 125:1585-1590 Lutz KA, Corneille S, Azhagiri AK, Svab Z, Maliga P (2004) A novel approach to plastid transformation utilizes the phiC31 phage integrase. Plant J 37:906-913 Lutz KA, Azhagiri AK, Tungsuchat-Huang T, Maliga P (2007) A guide to choosing vectors for transformation of the plastid genome of higher plants. Plant Physiol 145:1201-1210 Magee AM, Horvath EM, Kavanagh TA (2004) Pre-screening plastid transgene expression cassettes in Escherichia coli may be unreliable as a predictor of expression levels in chloro-plast-transformed plants. Plant Sci 166:1605-1611 Maliga P (2004) Plastid transformation in higher plants. Annu Rev Plant Physiol Plant Mol Biol 55:289-313

McBride KE, Schaaf DJ, Daley M, Stalker DM (1994) Controlled expression of plastid transgenes in plants based on a nuclear DNA-encoded and plastid-targeted T7 RNA polymerase. Proc Natl Acad Sci USA 91:7301-7305 Melanie Oey MLBKRB (2009) Exhaustion of the chloroplast protein synthesis capacity by massive expression of a highly stable protein antibiotic. Plant J 57:436-445 Muhlbauer SK, Koop HU (2005) External control of transgene expression in tobacco plastids using the bacterial lac repressor. Plant J 43:941-946 Muhlbauer SK, Lossl A, Tzekova L, Zou Z, Koop HU (2002) Functional analysis of plastid DNA

replication origins in tobacco by targeted inactivation. Plant J 32:175-184 Nadai M, Bally J, Vitel M, Job C, Tissot G, Botterman J, Dubald M (2009) High-level expression of active human alpha1-antitrypsin in transgenic tobacco chloroplasts. Transgenic Res 18: 173-183

Nguyen TT, Nugent G, Cardi T, Dix PJ (2005) Generation of homoplasmic plastid transformants of a commercial cultivar of potato (Solanum tuberosum L.). Plant Sci 168:1495-1500 Nugent GD, Coyne S, Nguyen TT, Kavanagh TA, Dix PJ (2006) Nuclear and plastid transformation of Brassica oleracea var. botrytis (cauliflower) using PEG-mediated uptake of DNA into protoplasts. Plant Sci 170:135-142 Okumura S, Sawada M, Park YW, Hayashi T, Shimamura M, Takase H, Tomizawa K (2006) Transformation of poplar (Populus alba) plastids and expression of foreign proteins in tree chloroplasts. Transgenic Res 15:637-646 Quesada-Vargas T, Ruiz ON, Daniell H (2005) Characterization of heterologous multigene operons in transgenic chloroplasts: transcription, processing, and translation. Plant Physiol 138:1746-1762

Ruf S, Biehler K, Bock R (2000) A small chloroplast-encoded protein as a novel architectural component of the light-harvesting antenna. J Cell Biol 149:369-378 Ruf S, Hermann M, Berger IJ, Carrer H, Bock R (2001) Stable genetic transformation of tomato plastids and expression of a foreign protein in fruit. Nat Biotechnol 19:870-875

Shiina T, Allison L, Maliga P (1998) rbcL Transcript levels in tobacco plastids are independent of light: reduced dark transcription rate is compensated by increased mRNA stability. Plant Cell 10:1713-1722

Sidorov VA, Kasten D, Pang SZ, Hajdukiewicz PT, Staub JM, Nehra NS (1999) Technical Advance: Stable chloroplast transformation in potato: use of green fluorescent protein as a plastid marker. Plant J 19:209-216 Sikdar SR, Serino G, Chaudhuri S, Maliga P (1998) Plastid transformation of Arabidopsis thaliana. Plant Cell Rep 18:20-24 Skarjinskaia M, Svab Z, Maliga P (2003) Plastid transformation in Lesquerella fendleri, an oilseed

Brassicacea. Transgenic Res 12:115-122 Staub JM, Maliga P (1993) Accumulation of D1 polypeptide in tobacco plastids is regulated via the untranslated region of the psbA mRNA. EMBO J 12:601-606 Staub JM, Maliga P (1995) Expression of a chimeric uidA gene indicates that polycistronic mRNAs are efficiently translated in tobacco plastids. Plant J 7:845-848 Suzuki JY, Maliga P (2000) Engineering of the rpl23 gene cluster to replace the plastid RNA

polymerase alpha subunit with the Escherichia coli homologue. Curr Genet 38:218-225 Svab Z, Maliga P (1993) High-frequency plastid transformation in tobacco by selection for a chimeric aadA gene. Proc Natl Acad Sci USA 90:913-917 Svab Z, Hajdukkiewicz P, Maliga P (1990) Stable transformation of plastids in higher plants. Proc

Natl Acad Sci USA 87:8526-8530 Thomas MR, Rose RJ (1983) Plastid number and plastid structural changes associated with tobacco mesophyll protoplast culture and plant regeneration. Planta 158:329-338 Verma D, Daniell H (2007) Chloroplast vector systems for biotechnology applications. Plant Physiol 145:1129-1143

Verma D, Samson NP, Koya V, Daniell H (2008) A protocol for expression of foreign genes in chloroplasts. Nat Protoc 3:739-758 Ye GN, Hajdukiewicz PT, Broyles D, Rodriguez D, Xu CW, Nehra N, Staub JM (2001) Plastid-expressed 5-enolpyruvylshikimate-3-phosphate synthase genes provide high level glyphosate tolerance in tobacco. Plant J 25:261-270 Zhou F, Karcher D, Bock R (2007) Identification of a plastid intercistronic expression element (IEE) facilitating the expression of stable translatable monocistronic mRNAs from operons. Plant J 52:961-972

Zou Z, Eibl C, Koop HU (2003) The stem-loop region of the tobacco psbA 5'UTR is an important determinant of mRNA stability and translation efficiency. Mol Genet Genomics 269:340-349 Zoubenko OV, Allison LA, Svab Z, Maliga P (1994) Efficient targeting of foreign genes into the tobacco plastid genome. Nucleic Acids Res 22:3819-3824 Zubko MK, Zubko EI, van Zuilen K, Meyer P, Day A (2004) Stable transformation of petunia plastids. Transgenic Res 13:523-530

0 0

Post a comment