Wednesday, February 18, 2015

Nicotiana plumbaginifolia, wild tobacco


Nicotiana plumbaginifolia Viv.
Family: Solanaceae
Synonyms: Nicotiana angustifolia var. crispa (Cav.) Comes, Nicotiana cavanillesii Dunal, Nicotiana crispa Cav., Nicotiana minor Sessé & Moc., Nicotiana plantaginea DC. ex Dunal, Nicotiana pusilla Moc. & Sessé ex Dunal, Nicotiana tenella Cav.

Other names: Wild Tobacco, Tex-mex Tobacco, curled-leaved tobacco
Chinese: 皱叶烟草
Hindi: बन तंबाकू Ban tambaku, जंगली तंबाकू Jangli Tambakoo
French: Tabac à feuilles de plombago

Description: An erect viscid-pubescent plant up to 1 m tall, branched. Leaves radical and cauline. sessile, variable in size, 9-28 x 3.5-9.5 cm, elliptic-oblong or oblanceolate, entire or ± wavy, cuneate to decurrent. Panicles up to 15 cm long, lax. Pedicel up to 10 mm long, glandular-pubescent. Calyx 7-9 mm long, nervose; lobes linear-lanceolate. Corolla pink, tube 3.5-4.0 cm long, limb 10 mm broad; lobes 5, acute. Anthers shorter than filaments, ± oblong; filaments ± 20 mm long. Ovary ± 2.5 mm long. Capsule 8-10 mm long, ovoid, ± included in the persistent calyx. Seeds less than 1 mm long, subglobose to angular, minutely rugose-reticulate, brown.

Uses: Leaf juice for skin diseases. Veterinary medicine, ground leaves as germicide for animal wounds. [CRC World Dictionary of  MEDICINAL AND POISONOUS PLANTS]

213 Published articles of Nicotiana plumbaginifolia
1.    Evaluation of UV damage at DNA level in Nicotiana plumbaginifolia protoplasts using single cell gel electrophoresis Abas, Y., et al., Plant Cell Tissue and Organ Culture, 2007. 91(2): p. 145-154.
2.    Aldehyde oxidase in wild type and aba1 mutant leaves of Nicotiana plumbaginifolia Akaba, S., et al., Plant and Cell Physiology, 1998. 39(12): p. 1281-1286.
3.    Expression studies of the zeaxanthin epoxidase gene in Nicotiana plumbaginifolia Audran, C., et al., Plant Physiology, 1998. 118(3): p. 1021-1028.
4.    REDUCED INTRACELLULAR CONTENT OF METHOTREXATE IN AN ISOLATED MTX-RESISTANT CELL-LINE OF NICOTIANA-PLUMBAGINIFOLIA Barg, R. and S. Shabtai, Plant Cell Reports, 1991. 10(5): p. 269-272.
5.    Stereo selectivity of the demethylation of nicotine piperidine homologues by Nicotiana plumbaginifolia cell suspension cultures Bartholomeusz, T.A., et al., Phytochemistry, 2005. 66(16): p. 1890-1897.
6.    RNaseI from Escherichia coli cannot substitute for S-RNase in rejection of Nicotiana plumbaginifolia pollen Beecher, B., J. Murfett, and B.A. McClure, Plant Molecular Biology, 1998. 36(4): p. 553-563.
7.    Effects of RNases on rejection of pollen from Nicotiana tabacum and N-plumbaginifolia Beecher, B., D. Zurek, and B. McClure, Sexual Plant Reproduction, 2001. 14(1-2): p. 69-76.
8.    Crown-gall transformation of Nicotiana plumbaginifolia haploid cells and characteristics of tumor lines Bezdek, M., et al., Plant tissue and cell culture application to crop improvement, 1984: p. 423-424.
9.    STUDIES ON THE EFFECTS OF PHOTOPERIOD AND GIBBERELLIC-ACID ON THE ALKALOID YIELD OF NICOTIANA-PLUMBAGINIFOLIA Bhattacharya, M. and S.K. Chatterjee, Indian Science Congress Association Proceedings, 1972. 59(PART 3): p. 374-374.
10.    A CYTOKININ-RESISTANT MUTANT OF NICOTIANA-PLUMBAGINIFOLIA IS WILTY Blonstein, A.D., et al., Planta, 1991. 183(2): p. 244-250.
11.    MUTANTS OF NICOTIANA-PLUMBAGINIFOLIA WITH SPECIFIC RESISTANCE TO AUXIN Blonstein, A.D., P. Stirnberg, and P.J. King, Molecular & General Genetics, 1991. 228(3): p. 361-371.
12.    Expression of ACC oxidase promoter-GUS fusions in tomato and Nicotiana plumbaginifolia regulated by developmental and environmental stimuli Blume, B. and D. Grierson, Plant Journal, 1997. 12(4): p. 731-746.
13.    Producing and analysis of amiprophosmethyl-resistant mutants with altered tubulin from mesophyll protoplasts of Nicotiana plumbaginifolia Blume, Y.B., et al., Physiologia Plantarum, 1991. 82(1): p. A35-A35.
14.    Alteration of beta-tubulin in Nicotiana plumbaginifolia confers resistance to amiprophos-methyl Blume, Y.B., et al., Theoretical and Applied Genetics, 1998. 97(3): p. 464-472.
15.    Does engineering abscisic acid biosynthesis in Nicotiana plumbaginifolia modify stomatal response to drought? Borel, C., et al., Plant Cell and Environment, 2001. 24(5): p. 477-489.
16.    Microfluorometry of sporopollenin and detection of mineral elements by energy dispersive X-ray spectrometry Bouchaour, I., et al., Grana, 1996. 35(6): p. 357-368.
17.    Isolation and protoplast culture of albino "hypohaploid" variant of Nicotiana plumbaginifolia Viv Bouchaour, I., et al., Comptes Rendus des Seances de la Societe de Biologie et de ses Filiales, 1994. 188(2): p. 161-170.
18.    Gene expression analysis by cDNA-AFLP highlights a set of new signaling networks and translational control during seed dormancy breaking in Nicotiana plumbaginifolia Bove, J., et al., Plant Molecular Biology, 2005. 57(4): p. 593-612.
19.    NITROGEN, C.A.Z.R.F.T.E.I.O.S.M.F.P.-D.C.O.N.-P.C., M., Plant Cell Tissue and Organ Culture, 1987. 8(3): p. 197-206.
20.    NUCLEAR BEHAVIOR OF COLONIES AND REGENERATED BUDS FROM PROTOPLASTS OF NICOTIANA-PLUMBAGINIFOLIA VIVIANI HAPLOIDS Cambecedes, J., et al., Plant Cell Tissue and Organ Culture, 1988. 13(1): p. 27-37.
21.    AN EXAMINATION OF THE PLASTID DNA OF HYPOHAPLOID NICOTIANA-PLUMBAGINIFOLIA PLANTS Cannon, G.C., et al., Plant Physiology, 1989. 90(2): p. 390-393.
22.    TISSUE-SPECIFIC AND PATHOGEN-INDUCED REGULATION OF A NICOTIANA-PLUMBAGINIFOLIA BETA-1, -.G.G.C., C., et al., Plant Cell, 1990. 2(12): p. 1131-1143.
23.    BOTH POSITIVE AND NEGATIVE REGULATORY ELEMENTS MEDIATE EXPRESSION OF A PHOTOREGULATED CAB GENE FROM NICOTIANA-PLUMBAGINIFOLIA Castresana, C., et al., Embo Journal, 1988. 7(7): p. 1929-1936.
24.    MOLECULAR CHARACTERIZATION OF 2 CLUSTERS OF GENES ENCODING THE TYPE-I CAB POLYPEPTIDES OF PSII IN NICOTIANA-PLUMBAGINIFOLIA Castresana, C., et al., Plant Molecular Biology, 1987. 10(2): p. 117-126.
25.    SEQUENCE OF THE GENE ENCODING THE MITOCHONDRIAL F1-ATPASE ALPHA SUBUNIT FROM NICOTIANA-PLUMBAGINIFOLIA Chaumont, F., et al., Nucleic Acids Research, 1988. 16(13): p. 6247-6247.
26.    TRUNCATED PRESEQUENCES OF MITOCHONDRIAL F1-ATPASE BETA-SUBUNIT FROM NICOTIANA-PLUMBAGINIFOLIA TRANSPORT CAT AND GUS PROTEINS INTO MITOCHONDRIA OF TRANSGENIC TOBACCO Chaumont, F., et al., Plant Molecular Biology, 1994. 24(4): p. 631-641.
27.    ENDO-REDUPLICATION IN LEAF PROTOPLASTS OF HAPLOID NICOTIANA-PLUMBAGINIFOLIA CULTURED INVITRO Chen, C.C., F.M. Lee, and Y.Y. Kao, Genome, 1988. 30(5): p. 615-620.
28.    Nicotiana plumbaginifolia as a model species for somatic cell genetics Chen, C.C., et al., Institute of Botany, Academia Sinica Monograph Series, 1993(13): p. 57-61.
29.    Utilization of yeast artificial chromosome in the study of the molecular biology of Nicotiana plumbaginifolia Chen, C.M., Institute of Botany, Academia Sinica Monograph Series, 1993(13): p. 289-292.
30.    A REPETITIVE SEQUENCE IN NICOTIANA-PLUMBAGINIFOLIA CONTAINS AN ELEMENT HOMOLOGOUS TO THE HYPOTHETICAL REPLICATION ORIGINS OF PLANT-VIRUSES Chen, C.M. and L.C. Lee, Botanical Bulletin of Academia Sinica, 1993. 34(4): p. 313-322.
31.    Construction and characterization of a Nicotiana plumbaginifolia genomic library in a yeast artificial chromosome Chen, C.M., et al., Plant Science, 1996. 114(2): p. 159-169.
32.    EXPRESSION INSTABILITY AND GENETIC-DISORDERS IN TRANSGENIC NICOTIANA-PLUMBAGINIFOLIA L PLANTS Cherdshewasart, W., et al., Transgenic Research, 1993. 2(6): p. 307-320.
33.    BIOCHEMICAL AND IMMUNOLOGICAL CHARACTERIZATION OF NITRATE REDUCTASE DEFICIENT NIA MUTANTS OF NICOTIANA-PLUMBAGINIFOLIA Cherel, I., et al., Plant Physiology, 1990. 92(3): p. 659-665.
34.    Dose effect of UV-B irradiation on pollen tube growth and seed-specific promoter activities in irradiated pollen grains of Nicotiana plumbaginifolia Chesnokov, Y.V. and R. Manteuffel, Sexual Plant Reproduction, 2000. 12(6): p. 361-364.
35.    A chimeric green fluorescent protein gene as an embryogenic marker in transgenic cell culture of Nicotiana plumbaginifolia Viv Chesnokov, Y.V., A. Meister, and R. Manteuffel, Plant Science, 2002. 162(1): p. 59-77.
36.    COMPLEMENTATION OF A THREONINE DEHYDRATASE-DEFICIENT NICOTIANA-PLUMBAGINIFOLIA MUTANT AFTER AGROBACTERIUM-TUMEFACIENS-MEDIATED TRANSFER OF THE SACCHAROMYCES-CEREVISIAE ILV1 GENE Colau, D., et al., Molecular and Cellular Biology, 1987. 7(7): p. 2552-2557.
37.    IN, A.O.C.-U.S.N.-R.S.M.R.G.I.T.P.O.N.-P.-U.-S.-E.F.A.T.I.C.O.I. and W. Filipowicz, Molecular and Cellular Biology, 1993. 13(10): p. 6403-6415.
38.    A MATERNALLY INHERITED, C.-D.M.O.A.T.K.-R.N.-P.P.C., A. J. and J.L. Tynan, International Journal of Plant Sciences, 1995. 156(3): p. 320-325.
39.    POINT MUTATIONS IN THE 23-S RIBOSOMAL-RNA GENES OF 4 LINCOMYCIN RESISTANT NICOTIANA-PLUMBAGINIFOLIA MUTANTS COULD PROVIDE NEW SELECTABLE MARKERS FOR CHLOROPLAST TRANSFORMATION Cseplo, A., et al., Molecular & General Genetics, 1988. 214(2): p. 295-299.
40.    Mendelian inheritance of agropine synthesis in a Nicotiana plumbaginifolia plant after transformation of protoplasts with Agrobacterium tumefaciens Czako, M. and L. Marton, Plant tissue and cell culture application to crop improvement, 1984: p. 425-426.
41.    INDEPENDENT INTEGRATION AND SEED-TRANSMISSION OF THE TR-DNA OF THE OCTOPINE TI PLASMID PTI ACH5 IN NICOTIANA-PLUMBAGINIFOLIA Czako, M. and L. Marton, Plant Molecular Biology, 1986. 6(2): p. 101-109.
42.    Instability of NPTII gene expression in the progeny of transgenic tobacco plants (Nicotiana tabacum L and N-plumbaginifolia L) Deineko, E., et al., Biotechnology & Biotechnological Equipment, 1996. 10(4): p. 89-92.
43.    Instability of NPTII gene expression in the progeny of transgenic tobacco plants ( Nicotiana tabacum L. and N. plumbaginifolia L.) Deineko, E., et al., Biotechnology & Biotechnology Equipment, 1996(4): p. 83-92.
44.    PRIMARY STRUCTURE OF A HORMONALLY REGULATED BETA-GLUCANASE OF NICOTIANA-PLUMBAGINIFOLIA Deloose, M., et al., Gene, 1988. 70(1): p. 13-23.
45.    PHENOTYPIC EFFECTS IN SACCHAROMYCES-CEREVISIAE AFTER REGULATED EXPRESSION OF BETA-(1, -.G.F.N.-P.D., J., et al., Journal of Biotechnology, 1993. 27(3): p. 295-305.
46.    MUTANTS OF NICOTIANA-PLUMBAGINIFOLIA WITH INCREASED SENSITIVITY TO AUXIN Desouza, L. and P.J. King, Molecular & General Genetics, 1991. 231(1): p. 65-75.
47.    CYTOKININS AND AUXINS CONTROL THE EXPRESSION OF A GENE IN NICOTIANA-PLUMBAGINIFOLIA CELLS BY FEEDBACK-REGULATION Dominov, J.A., et al., Plant Cell, 1992. 4(4): p. 451-461.
48.    THE TOMATO NIA GENE COMPLEMENTS A NICOTIANA-PLUMBAGINIFOLIA NITRATE REDUCTASE-DEFICIENT MUTANT AND IS PROPERLY REGULATED Dorbe, M.F., M. Caboche, and F. Danielvedele, Plant Molecular Biology, 1992. 18(2): p. 363-375.
49.    Molecular characterization and expression study of a histidine auxotrophic mutant (his1(-)) of Nicotiana plumbaginifolia El Malki, F. and M. Jacobs, Plant Molecular Biology, 2001. 45(2): p. 191-199.
50.    TISSUE-SPECIFIC EXPRESSION OF A PEA LEGUMIN GENE IN SEEDS OF NICOTIANA-PLUMBAGINIFOLIA Ellis, J.R., et al., Plant Molecular Biology, 1988. 10(3): p. 203-214.
51.    Genetic and biochemical analysis of intragenic complementation events among nitrate reductase apoenzyme-deficient mutants of Nicotiana plumbaginifolia Elsy, F. and M. Gonneau, Genetics, 1991. 127(1): p. 199-204.
52.    Molecular and structural-biological analysis of Nicotiana plumbaginifolia mutants for identification of the site of beta-tubulins interaction with dinitroanilines and phosphorotioamidates Emets, A.I., et al., TSitologiia i genetika, 2009. 43(5): p. 69-76.
53.    Somatic hybrids of higher plants obtained from amiprophosmethyl-resistant mutant Nicotiniana plumbaginifolia Emets, A.I., et al., Genetika, 1996. 32(8): p. 1104-1111.
54.    INTRAGENERIC ASYMMETRIC HYBRIDS BETWEEN NICOTIANA-PLUMBAGINIFOLIA AND NICOTIANA SYLVESTRIS OBTAINED BY GAMMA-FUSION Famelaer, I., et al., Plant Science, 1989. 61(1): p. 105-117.
55.    The role of Cd-binding proteins and phytochelatins in the formation of cadmium resistance in Nicotiana plumbaginifolia cell lines Fenik, S.I., et al., TSitologiia i genetika, 2007. 41(1): p. 9-15.
56.    Analysis of the function of the photoreceptors phytochrome B and phytochrome D in Nicotiana plumbaginifolia and Arabidopsis thaliana Fernandez, A.P., et al., Plant and Cell Physiology, 2005. 46(5): p. 790-796.
57.    EFFECTS OF CONSTITUTIVE EXPRESSION OF NITRATE REDUCTASE IN TRANSGENIC NICOTIANA-PLUMBAGINIFOLIA L IN RESPONSE TO VARYING NITROGEN SUPPLY Ferrario, S., et al., Planta, 1995. 196(2): p. 288-294.
58.    Modulation of carbon and nitrogen metabolism, a.o.n.r., in untransformed and transformed Nicotiana plumbaginifolia during CO2 enrichment of plants grown in pots and in hydroponic culture FerrarioMery, S., et al., Planta, 1997. 202(4): p. 510-521.
59.    Isolation and characterization of two cDNA clones encoding for glutamate dehydrogenase in Nicotiana plumbaginifolia Ficarelli, A., F. Tassi, and F.M. Restivo, Plant and Cell Physiology, 1999. 40(3): p. 339-342.
60.    Post-pollination mechanisms in Nicotiana longiflora and N. plumbaginifolia: pollen tube growth rate, o.p.a.h.F.-C., Dulce M. and T.P. Holtsford, Sexual Plant Reproduction, 2009. 22(3): p. 187-196.
61.    Control of the synthesis and subcellular targeting of the two GDH genes products in leaves and stems of Nicotiana plumbaginifolia and Arabidopsis thaliana Fontaine, J.X., et al., Plant and Cell Physiology, 2006. 47(3): p. 410-418.
62.    Purification and properties of a cytosolic glutamine synthetase expressed in Nicotiana plumbaginifolia cultured cells Forlani, G., Plant Physiology and Biochemistry, 2000. 38(3): p. 201-207.
63.    REGULATORY EFFECTS OF EXOGENOUS BRANCHED-CHAIN AMINO-ACIDS IN NICOTIANA-PLUMBAGINIFOLIA CELL-SUSPENSION CULTURES Forlani, G., et al., Plant Growth Regulation, 1994. 14(3): p. 203-209.
64.    Modulation of nitrogen and carbon metabolism in transformed Nicotiana plumbaginifolia mutant E23 lines expressing either increased or decreased nitrate reductase activity Foyer, C.H., et al., Aspects of Applied Biology, 1993(34): p. 137-145.
65.    ADAPTATIONS OF PHOTOSYNTHETIC ELECTRON-TRANSPORT, C.A., AND CARBON PARTITIONING IN TRANSGENIC NICOTIANA-PLUMBAGINIFOLIA PLANTS TO CHANGES IN NITRATE REDUCTASE-ACTIVITY Foyer, C. H., et al., Plant Physiology, 1994. 104(1): p. 171-178.
66.    Identification and expression analyses of two genes encoding putative low-affinity nitrate transporters from Nicotiana plumbaginifolia Fraisier, V., M.F. Dorbe, and F. Daniel-Vedele, Plant Molecular Biology, 2001. 45(2): p. 181-190.
67.    Constitutive expression of a putative high-affinity nitrate transporter in Nicotiana plumbaginifolia: evidence for post-transcriptional regulation by a reduced nitrogen source Fraisier, V., et al., Plant Journal, 2000. 23(4): p. 489-496.
68.    A defect in cystathionine beta-lyase activity causes the severe phenotype of a Nicotiana plumbaginifolia methionine auxotroph Frankard, V., et al., Plant Science, 2002. 162(4): p. 607-614.
69.    Regulation of carotenoid and ABA accumulation during the development and germination of Nicotiana plumbaginifolia seeds Frey, A., et al., Planta, 2006. 224(3): p. 622-632.
70.    Maternal synthesis of abscisic acid controls seed development and yield in Nicotiana plumbaginifolia Frey, A., et al., Planta, 2004. 218(6): p. 958-964.
71.    GENETIC-ANALYSIS OF NITRATE REDUCTASE DEFICIENT MUTANTS OF NICOTIANA-PLUMBAGINIFOLIA - EVIDENCE FOR 6 COMPLEMENTATION GROUPS AMONG 70 CLASSIFIED MOLYBDENUM COFACTOR DEFICIENT MUTANTS Gabard, J., et al., Molecular & General Genetics, 1988. 213(2-3): p. 206-213.
72.    HYBRID GENES IN THE ANALYSIS OF TRANSFORMATION CONDITIONS .3. TEMPORAL SPATIAL FATE OF NPTII GENE INTEGRATION, I.I.A.F.A.T.P.I.N.-P.G., G. B., et al., Plant Molecular Biology, 1990. 14(5): p. 687-696.
73.    SEQUENCE OF A NICOTIANA-PLUMBAGINIFOLIA-BETA(1, -.G.G.E.A.V.I.G., G., et al., Nucleic Acids Research, 1990. 18(22): p. 6685-6685.
74.    STRUCTURE AND PHYSIOLOGY OF THE DEVELOPMENT OF ROOTS FROM MICROCALLI OF LEAF PROTOPLASTS OF RI-TRANSFORMED AND WILD-TYPE NICOTIANA-PLUMBAGINIFOLIA Gilissen, L.J.W., et al., Acta Botanica Neerlandica, 1991. 40(3): p. 225-235.
75.    Somatic hybridization between potato and Nicotiana plumbaginifolia: spontaneous biparental chromosome elimination and segregation of genetic markers in asymmetric hybrids Gilissen, L.J.W., K.S. Ramulu, and H.A. Verhoeven, Physiologia Plantarum, 1991. 82(1): p. A26-A26.
76.    SOMATIC HYBRIDIZATION BETWEEN POTATO AND NICOTIANA-PLUMBAGINIFOLIA .2. KARYOTYPIC MODIFICATION AND SEGREGATION OF GENETIC-MARKERS IN HYBRID SUSPENSION-CULTURES AND SUBLINES Gilissen, L.J.W., et al., Theoretical and Applied Genetics, 1992. 84(1-2): p. 81-86.
77.    SOMATIC HYBRIDIZATION BETWEEN POTATO AND NICOTIANA-PLUMBAGINIFOLIA .1. SPONTANEOUS BIPARENTAL CHROMOSOME ELIMINATION AND PRODUCTION OF ASYMMETRIC HYBRIDS Gilissen, L.J.W., et al., Theoretical and Applied Genetics, 1992. 84(1-2): p. 73-80.
78.    Chlorogenic acid in a Nicotiana plumbaginifolia cell suspension Gillet, F., et al., Plant Physiology and Biochemistry, 1999. 37(11): p. 869-874.
79.    Intergeneric asymmetric hybrids between Nicotiana plumbaginifolia and Atropa belladonna obtained by "gamma-fusion" Gleba, Y.Y., et al., Theoretical and Applied Genetics, 1988. 76(5): p. 760-766.
80.    TRANSMISSION GENETICS OF NICOTIANA HYBRIDS PRODUCED BY PROTOPLAST FUSION .2. GENETIC CONSTITUTION OF NICOTIANA-TABACUM + NICOTIANA-PLUMBAGINIFOLIA HYBRID CELL-LINES OBTAINED USING SELECTIVE AND NONSELECTIVE SCREENING METHODS Gleba, Y., I.F. Kanevsky, and N.N. Cherep, Plant Cell Tissue and Organ Culture, 1985. 4(1): p. 19-27.
81.    The N-terminal presequence from F1-ATPase beta-subunit of Nicotiana plumbaginifolia efficiently targets green fluorescent fusion protein to the mitochondria in diverse commercial crops Gnanasambandam, A., et al., Functional Plant Biology, 2008. 35(2): p. 166-170.
82.    Characterisation of intronic uridine-rich sequence elements acting as possible targets for nuclear proteins during pre-mRNA splicing in Nicotiana plumbaginifolia Gniadkowski, M., et al., Nucleic Acids Research, 1996. 24(4): p. 619-627.
83.    Methylammonium resistant mutants of Nicotiana plumbaginifolia are affected in nitrate transport Godon, C., et al., Molecular & General Genetics, 1996. 250(3): p. 357-366.
84.    A Nicotiana plumbaginifolia protein labeled with an azido cytokinin agonist is a glutathione S-transferase Gonneau, J., R. Mornet, and M. Laloue, Physiologia Plantarum, 1998. 103(1): p. 114-124.
85.    Control of seed dormancy in Nicotiana plumbaginifolia: post-imbibition abscisic acid synthesis imposes dormancy maintenance Grappin, P., et al., Planta, 2000. 210(2): p. 279-285.
86.    GROWTH AND DEVELOPMENTAL PHYSIOLOGY OF NICOTIANA-PLUMBAGINIFOLIA PART 2 MODIFICATION OF GROWTH AND DEVELOPMENTAL BEHAVIOR AND OF ALKALOID FORMATION BY PHYSICAL AND CHEMICAL TREATMENTS Gupta, K.K. and S.K. Chatterjee, Bulletin of the Botanical Society of Bengal, 1971. 25(1-2): p. 103-110.
87.    Sequence of the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase from Nicotiana plumbaginifolia and phylogenetic origin of the gene family Habenicht, A., A. Quesada, and R. Cerff, Gene, 1997. 198(1-2): p. 237-243.
88.    CYTOKININS MODULATE STRESS-RESPONSE GENES IN ISOPENTENYL TRANSFERASE-TRANSFORMED NICOTIANA-PLUMBAGINIFOLIA PLANTS Harding, S.A. and A.C. Smigocki, Physiologia Plantarum, 1994. 90(2): p. 327-333.
89.    DEVELOPMENTAL AND ENVIRONMENTAL-REGULATION OF THE NICOTIANA-PLUMBAGINIFOLIA CYTOSOLIC CU/ZN-SUPEROXIDE DISMUTASE PROMOTER IN TRANSGENIC TOBACCO Herouart, D., M. Vanmontagu, and D. Inze, Plant Physiology, 1994. 104(3): p. 873-880.
90.    Cloning and functional expression of the small subunit of acetolactate synthase from Nicotiana plumbaginifolia Hershey, H.P., et al., Plant Molecular Biology, 1999. 40(5): p. 795-806.
91.    CLONING OF A NICOTIANA-PLUMBAGINIFOLIA PROTOPLAST-SPECIFIC ENHANCER-LIKE SEQUENCE Horth, M., et al., Embo Journal, 1987. 6(9): p. 2525-2530.
92.    SOME FEATURES ABOUT TRANSPOSITION OF THE MAIZE ELEMENT DISSOCIATION IN NICOTIANA-PLUMBAGINIFOLIA Houbaherin, N., M. Domin, and A.S. Leprince, Genetica, 1994. 93(1-3): p. 41-48.
93.    TRANSPOSITION OF A DS ELEMENT FROM A PLASMID INTO THE PLANT GENOME IN NICOTIANA-PLUMBAGINIFOLIA PROTOPLAST-DERIVED CELLS Houbaherin, N., M. Domin, and J. Pedron, Plant Journal, 1994. 6(1): p. 55-66.
94.    A POINT MUTATION IN THE CHLOROPLAST RPS12 GENE FROM NICOTIANA-PLUMBAGINIFOLIA CONFERS STREPTOMYCIN RESISTANCE Hsu, C.M., et al., Plant Molecular Biology, 1993. 23(1): p. 179-183.
95.    Nicotiana plumbaginifolia hlg mutants have a mutation in a PHYB-type phytochrome gene: they have elongated hypocotyls in red light, b.a.n.e.a.a.p.H., M., et al., Plant Journal, 1997. 12(5): p. 1091-1101.
96.    The phytochrome B encoded by the HLG locus of Nicotiana plumbaginifolia is required for detection of photoperiod: hlg mutants show altered regulation of flowering and circadian movement Hudson, M. and H. Smith, Plant Journal, 1998. 15(2): p. 281-287.
97.    CHLOROPLAST SEGREGATION IN SOMATIC HYBRIDS OF NICOTIANA-PLUMBAGINIFOLIA AND NICOTIANA-SYLVESTRIS HAVING DIFFERENT RATIOS OF PARENTAL NUCLEAR GENOMES Hung, C.Y., et al., Plant Cell Reports, 1993. 13(2): p. 83-86.
98.    Characterisation of Nicotiana plumbaginifolia transformants, c.m.g.f.E.c.I.A.o.n.a.I., Gabriela, et al., Studia Universitatis Babes-Bolyai Biologia, 2000. 45(1): p. 113-119.
99.    Absence of arabinan in the side chains of the pectic polysaccharides strongly associated with cell walls of Nicotiana plumbaginifolla non-organogenic callus with loosely attached constituent cells Iwai, H., T. Ishii, and S. Satoh, Planta, 2001. 213(6): p. 907-915.
100.    STUDY OF THE ALKALOID CONTENT OF 4 HYPOHAPLOIDS OF NICOTIANA-PLUMBAGINIFOLIA GROWN-INVITRO Jacquindubreuil, A., et al., Plant Cell Tissue and Organ Culture, 1991. 27(1): p. 1-6.
101.    Seed dormancy and responses of seeds to phytohormones in Nicotiana plumbaginifolia Jullien, M. and D. Bouinot. Basic and Applied Aspects of Seed Biology, ed. R.H. Ellis, et al. Vol. 30. 1997. 203-214.
102.    GLUCOSYLATION OF BUTYRIC-ACID BY CELL-SUSPENSION CULTURE OF NICOTIANA-PLUMBAGINIFOLIA Kamel, S., et al., Phytochemistry, 1992. 31(5): p. 1581-1583.
103.    MENDELIAN INHERITANCE OF STREPTOMYCIN RESISTANCE IN NICOTIANA-PLUMBAGINIFOLIA Kao, Y.Y., et al., Plant Cell Reports, 1991. 10(8): p. 388-391.
104.    Molecular characterization of cDNAs encoding G protein alpha and beta subunits and study of their temporal and spatial expression patterns in Nicotiana plumbaginifolia Viv Kaydamov, C., et al., Biochimica Et Biophysica Acta-Gene Structure and Expression, 2000. 1491(1-3): p. 143-160.
105.    ORGANIZATION OF MICROTUBULES AND MICROFILAMENTS IN PROTOPLASTS FROM SUSPENSION CELLS OF NICOTIANA-PLUMBAGINIFOLIA - A QUANTITATIVE-ANALYSIS Kengen, H.M.P. and J. Derksen, Acta Botanica Neerlandica, 1991. 40(1): p. 29-40.
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211.    The cytokinin requirement for cell division in cultured Nicotiana plumbaginifolia cells can be satisfied by yeast cdc25 protein tyrosine phosphatase. Implications for mechanisms of cytokinin response and plant development Zhang, K., L. Diederich, and P.C.L. John, Plant Physiology, 2005. 137(1): p. 308-316.
212.    Raised level of cyclin dependent kinase A after prolonged suspension culture of Nicotiana plumbaginifolia is associated with more rapid growth and division, d.c.a.l.c.f.r.i.f. and P.C.L. John, Plant Cell Tissue and Organ Culture, 2005. 82(3): p. 295-308.
213.    Expression analysis of the plasma membrane H+-ATPase pma4 transcription promoter from Nicotiana plumbaginifolia activated by the CaMV 35S promoter enhancer Zhao, R.M., L. Moriau, and M. Boutry, Plant Science, 1999. 149(2): p. 157-165.
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