References
- AlpizarE, DechampE, Lapeyre-MontesF, GuilhaumonC, JourdanC, LashermesP, EtienneH. 2008. Agrobacterium rhizogenes-transformed roots of coffee (Coffea arabica): conditions for long-term proliferation, and morphological and molecular characterization. Ann Bot.101:929–940.
- BhatiaR, SinghKP, SharmaTR, JhangT. 2008. Evaluation of the genetic fidelity of in vitro-propagated gerbera (Gerbera jamesonii Bolus) using DNA-based markers. Plant Cell Tiss Org. 104:131–135.
- BulgakovVP, ShkrylYN, VeremeichikGN, GorpenchenkoTY, InyushkinaYV. 2011. Application of Agrobacteriumrol genes in plant biotechnology: a natural phenomenon of secondary metabolism regulation. In: AlvarezM, editor, Genetic transformation. Rijeka: InTech; p. 261–271. ISBN: 978-953-307-364-4.
- CanelC, Lopes-CardosoMI, WhitmerS, FitsLVD, PasqualiG, HeijdenRVD, HogeJH, VerpoorteR. 1998. Effects of over-expression of strictosidine synthase and tryptophan decarboxylase on alkaloid production by cell cultures of Catharanthus roseus. Planta.205:414–419.
- ChoiPS, KimYD, ChoiKM, ChungHJ, ChoiDW, Jr. 2004. Plant regeneration from hairy-root cultures transformed by infection with Agrobacterium rhizogenes in Catharanthus roseus. Plant Cell Rep.22:828–831.
- CulleyTM, WolfeAD. 2000. Population genetic structure of the Cleistogamous plant species Viola pubescens Aiton (Violaceae), as indicated by allozyme and ISSR molecular markers. Heredity.86:545–556.
- Di FioreS, HoppmannV, FischerR, SchillbergS. 2004. Transient gene expression of recombinant terpenoid indole alkaloid enzymes in Catharanthus roseus leaves. Plant Mol Biol Rep. 22:15–22.
- GeerlingsA, HallardD, Martínez-CaballeroA, Lopes-CardosoI, HeijdenRVD, VerpoorteR. 1999. Alkaloid production by a Cinchona officinalis ‘Ledgeriana’ hairy root culture containing constitutive expression constructs for tryptophan decarboxylase and strictosidine synthase cDNAs from Catharanthus roseus. Plant Cell Rep.19:191–196.
- HeijdenRVD, JacobsDI, SnoeijerW, HallardD, VerpoorteR. 2004. The Catharanthus alkaloids: pharmacognosy and biotechnology. Curr Med Chem.11:607–628.
- HongSB, PeebleCAM, ShanksJV, SanKY, GibsonSI. 2006. Expression of the Arabidopsis feedback-insensitive anthranilate synthase holoenzyme and tryptophan decarboxylase genes in Catharanthus roseus hairy roots. J Biotechnol.122:28–38.
- KaliaRK, RaiMK, KaliaS, SinghR, DhawanAK. 2011. Microsatellite markers: an overview of the recent progress in plants. Euphytica.177:309–334.
- KooJ, KimY, KimJ, YeomM, LeeIC, NamHG. 2007. GUS/Luciferase fusion reporter for plant gene trapping and for assay of promoter activity with luciferin-dependent control of the reporter protein stability. Plant Cell Physiol.48:1121–1131.
- McKnightTD, BergeyDR, BurnettRJ, NesslerCL. 1991. Expression of enzymatically active and correctly targeted strictosidine synthase in transgenic tobacco plants. Planta.185:148–152.
- MohantyS, ParidaR, SinghS, JoshiRK, SubudhiE, NayakS. 2011. Biochemical and molecular profiling of micropropagated and conventionally grown Kaempferia galangal. Plant Cell Tiss Org.106:39–46.
- MorenoPRH, HeijdenRVD, VerpoorteR. 1995. Cell and tissue cultures of Catharanthus roseus: a literature survey II. Updating from 1988 to 1993. Plant Cell Tiss Org.42:1–25.
- MurashigeT, SkoogF.1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant.15:473–492.
- PasqualiG, PortoDD, Fett-NetoAG. 2006. Metabolic engineering of cell cultures versus whole plant complexity in production of bioactive monoterpene indole alkaloids: recent progress related to an old dilemma. J BioSci Bioeng.101:207–296.
- PeeblesCM, HongSB, GibsonSI, ShanksJV, SaKY. 2006. The effect of terpenoid precursor feeding on Catharanthus roseus hairy root over-expressing the alpha or the alpha and beta subunits of anthranilate synthase. Biotechnol Bioeng.93:534–540.
- RayS, JhaS. 1999. Withanolide synthesis in cultures of Withania somnifera transformed with Agrobacterium tumefaciens. Plant Sci.146:1–7.
- RoepkeJ, SalimV, WuM, ThammAMK, MurataJ, PlossK, BolandW, LucaVD. 2010. Vinca drug components accumulate exclusively in leaf exudates of Madagascar periwinkl. Proc Natl Acad Sci USA. 107:15287–15292.
- RoychawdhuryD, GhoshB, ChaubeyB, JhaS. 2013. Genetic and morphological stability of six-year-old Tylophora indica plants. Nucleus.56:81–89.
- SevonN, Oksman-CaldenteyK. 2002. Agrobacterium rhizogenes-mediated transformation: root culture as a source of alkaloids. Planta Med.68:859–868.
- van der FitsL, HilliouF, MemelinkJ. 2001. T-DNA activation tagging as a tool to isolate regulators of a metabolic pathway from a genetically non-tractable plant species. Trans Res.10:513–521.
- VermaP, MathurAK. 2011a. Agrobacterium tumefaciens mediated transgenic plant production via direct shoot bud organogenesis from pre-plasmolyzed leaf explants of Catharanthus roseus. Biotechnol Lett.33:1053–1060.
- VermaP, MathurAK. 2011b. Direct shoot bud organogenesis and plant regeneration from leaf explants in Catharanthus roseus. Plant Cell Tiss Org.106:401–408.
- VermaP, MathurAK, ShankarK. 2012a. Enhanced vincamine production in selected tryptophan-overproducing shoots of Vinca minor. Plant Cell Tiss Org.111:239–245.
- VermaP, MathurAK, ShankarK. 2012b. Growth, alkaloid production, rol genes integration, bioreactor up-scaling and plant regeneration studies in transformed hairy root lines of Catharanthus roseus. Plant Biosyst.146:27–40.
- VermaP, MathurAK, SrivastavaA, MathurA. 2012c. Emerging trends in research on spatial and temporal organization of terpenoid indole alkaloids pathway in Catharanthus roseus: a literature up-date. Protoplasma.249:255–268.
- VerpoorteR, HeijdenRVD, HogeJHC, HoopenHJCT. 1993. Advances in developmental biology and biotechnology of higher plants. 439–453.
- WhitmerS, CanelC, HeijdenRVD, VerpoorteR. 2003. Long-term instability of alkaloid production by stably transformed cell lines of Catharanthus roseus. Plant Cell Tiss Org.74:73–80.
- WhitmerS, HeijdenRVD, VerpoorteR. 2002a. Effect of precursor feeding on alkaloid accumulation by a strictosidine synthase over-expressing transgenic cell line S1 of Catharanthus roseus. Plant Cell Tiss Org.69:85–93.
- WhitmerS, HeijdenRVD, VerpoorteR. 2002b. Effect of precursor feeding on alkaloid accumulation by a tryptophan decarboxylase overexpressing transgenic cell line T22 of Catharanthus roseus. J Biotechnol.96:193–203.
- ZietkiewiczE, RafalskiJA, LabudaD. 1994. Genome fingerprinting by simple sequence repeat (SSR)-anchored polymerase chain reaction amplification. Genomics.20:176–183.
- ZwackPJ, RobinsonBR, RisleyMJ, RashotteAM. 2013. Cytokinin response factor 6 negatively regulates leaf senescence and is induced in response to cytokinin and numerous abiotic stresses. Plant Cell Physiol. 54: 971–981.