(Spelling variations: Nicotiana tobaccum, Nicotiana tobacum)
Family: Solanaceae
Vernacular names: Ahisi, Aka, Akomi, Cauai, Chandi, Charhû, Chiri, Chiri Tseri, Chomak, Cutz, Cuutz, Erba Regina, Erba Tornabona, Erva Santa, Fumo, Fumo Commum, Hece, Henbane of Peru, Herb à la Reine, Hici, Hici Pvkpvki, Hini, I’pa, Iri, Istewaw, I’tci, Iúri, Kshátey, Kuutz, Lapscon, Mannah Sha, Morqona, Nicotiane, Non-Ni-Hi, Ojenqua, Paich, Paimbá, Pai’mba, Peenti, Petim, Petima, Petum, Petume, Petun, Pinaji, Pistacan, Pori, Punche, Rombo, Rome, Romu, Rume, Sairi, Sayri, Se’ma, Seri, Shahuano, Shiña, Ssina, Taaba, Tabac, Tabacco, Tabacco di Virginia, Tabac Commun, Tabac Mannoque, Tabaco, Tabaco Bobo, Tabaco de Oler, Tabak, Tac, Tambacu, Tamrakuta, Tanbak, Theyamah, Tobacco, Tombaca, Tsaang, Tsa’lu, Tsiña, Tsit, Tütün, Twahko, Uar, Uenaña, Upook, Uppówoc, Virginischer Tabak, WX’ru, Yan Cao, Yani’, Yapo, Yemats, Yen Ts’ao, Yerba de la Reina, Yerba del Embajador, Yerba del Gran Prior, Yetl, Yiri, Zèb a la Rèn, Pogaaku, Tambaaku,
Activity: Acaricide, Analgesic, Anorectic, Anticonvulsant, Antidote, Antidote , Antiparasitic, Antiseptic, Antispasmodic, Aphrodisiac, Cathartic, CNS-Stimulant, Convulsant, Curare, Deobstruent, Depressant, Discutient, Diuretic, Emetic, Expectorant :45); Febrifuge, Fumitory, Fungicide, Hemostat, Hypertensive, Hypotensive, Insectifuge, Intoxicant, Larvicide, Laxative, Molluscacide, Narcotic, Parasiticide, Pediculifuge, Piscicide, Poison, Psychedelic, Purgative, Respirostimulant, Sedative, Sialagogue, Vermifuge. [Duke's Handbook of Medicinal Plants of Latin America]
Dominican Medicinal Uses
Leaves: poultice, topically, for wounds, skin infections, bug bites, sinus infection and headache.
Safety: Cases of toxic effects in humans have been reported due to ingestion of the dried leaf or nicotine and excessive exposure to the fresh leaf.
Contraindications: Pregnancy, lactation, children under 5 years.
Laboratory & Preclinical Data: In vitro: acaricidal, antifungal, insecticidal (methanolic leaf extracts); antifungal (seed). [Dominican Medicinal Plants: A Guide For Health Care Providers Second Edition]
Cured leaf poultice for postpartum pain. Fertility disruptant [Ethnomedicinal Plants - Revitalization of Traditional Knowledge of Herbs]
The leaves are useful in dental caries, dyspepsia, asthma, scabies, skin diseases, ulcers, painful tumors. [Herbal Cures: Traditional Approach]
Leaves—decoction is locally applied for muscle relaxation in dislocation, strangulated hernia and orchitis. Also for arthralgia, lumbago, rheumatism and gout (an ointment is made by simmering the leaves in lard). Not used internally as a medicine.
The plant contains nicotine as the major alkaloid. Toxic influence of cigarette and bidi smoking on carboxyhaemoglobin levels of the blood of regular smokers was compared and no significant difference was observed in both of them. A pyrolysed tobacco product, used in India as a dentifrice, when administered to rats, showed activity comparable to benzo(a)pyrene, a potent carcinogen. [Indian Medicinal Plants An Illustrated Dictionary]
Chemical Constituents: 2,3,6-Trimethyl-1,4-naphthoquinone: Pl, 2-Methylquinone: Lf smoke, 2-Naphthylamine: Lf, 3-Hydroxypyridine: Lf smoke, 3-Hydroxypyridine: Lf smoke, 4-(Methylnitrosamino)-1-(3-pirydyl)-1-butanol:, Lf, 4-(Methylnitrosamino)-1-(3-pirydyl)-1-, butanone: Lf, 4-(Methylnitrosamino)-4-(3-pyridyl)butyric, acid: Lf, 4-(Nitrosomethyloamino)-1-(3-pirydyl)butyric, acid: Pl, 4-(Nitrosomethyloamino)butyric acid: Pl, 4-(N-nitrosomethyloamino)-4-(3-, pirydyl)butyric acid: Pl 0.01-0.95, 4-Aminobiphenyl: Lf smoke, 6-Methyl-3-hydroxypyridine: Lf smoke, Abienol, cis: Pl, Abscisic acid, â-D-glucopyraoside: Stigma, Abscisic acid, cis-2-trans-4: Petiole, Abscisic acid, methyl ester: Stigma, Abscisic acid: Petal, Cy, Ovary, Style, Stamen,, An, Stigma, Acetaldehyde: Lf, Acetamide: Lf, Acetic acid: An, Acetonitrile: St, Acetophenone, 3-4-dimethoxy: Lf, Rt, St, Bk,, Tw, Acetophenone: Lf, Rt, St, Bk, Tw, Acrolein: Lf, Acrylonitrile: Lf, Actinidiolide, dihydro: Lf, Rt, St, Bk, Tw, Actinidol, 3-oxo: Lf, Rt, St, Bk, Tw, Adenine, 6-benzyl: Call Tiss, Aesculetin: Lf, Agropine: St 7%, Alainine: Sd, Alanine, phenyl: Sd, Albumin: cured Lf, Alkyl-2-cyclope, smoke, Alkyl-2-hydroxy-2-cyclope, smoke, Amine, N-nitroso-diethanol: Lf, Amine, N-nitroso-dimethyl: Lf, Amyrin, â: Lf, Anabasine, N'-formyl: Lf 4.3–8.6, Anabasine, N'-methyl, (2'S): Pl, Anabasine, N'-nitroso: Lf, Anabasine, N-methyl: Lf, Anabasine, N-nitroso: Lf, Anabasine: An, Anatabine, N'-formyl: Lf, Anatabine, N'-methyl: Lf 1, Anatabine: An, Rt, Anatalline: Rt 10.4, Anethole: Lf, Rt, St, Bk, Tw, Aniline-HCl: Lf smoke, A, A, Arachidic acid: Lf, Areginine: Sd, Arginine: Pl, Aristolochene, 5-epi: Pl, Aspartic acid: Sd, ATP: St, Avenasterol, 7-dehydro: Sd, Azetidine-2-carboxylic acid: Pl, Basm-4-en-6-one, 7-8-epoxy: Lf, Basman-6-one, 1(R)-3(R)-3(R)-epoxy-4(S)-, 8(S)-dihydroxy, (2S-8S-11R-12S): Fl, Basman-6-one, 1(R)-3(R)-epoxy-4(S)-8(R)-, dihydroxy, (2S-7R-11S-12S): Fl, Benzaldehyde, 3-4-dimethoxy: Lf, Rt, St, Bk,, Tw, Benzaldehyde: Lf, Rt, St, Bk, Tw, Benzene, 1-2-4-trihydroxy: Lf, Benzene, allyl: Lx (St), Benzene, N-propyl: Lx (St), Benzene, tert-butyl: Lx (St), Benzo-(A)-a, Benzo-(A)-fluorene: Lf 4.9 ìg/100 Cig, Benzo-(A)-pyrene: Lf 1.7 ìg/100 Cig, Benzo-(F)-fluora, Cig, Benzo-(G-H-I)-perylene: Lf 0.3 ìg/100, Cig, Benzo-(K)-fluora, Cig, Benzo[e]pyrene: Smoke, Benzofuran, octahydro, 6-hydroxy-4-4-7-(A)-, trimethyl: Lf, Rt, St, Bk, Tw, Benzoic acid: Lf 36, Benzonitrile: Lf, Benzopyrene: Lf, Benzoquinone, 1-4: Call Tiss, Rt, Lf, Benzyl acetate: Lf, Rt, St, Bk, Tw, Benzyl alcohol: Lf, Rt, St, Bk, Tw, Bicycle-(4-4-O)-decan-9-one, 1-3-7-7-, tetramethyl-2-oxa: Lf, Rt, St, Bk, Tw, Bicyclo-(4-4-O)-dec-5-en-9-oe, 1-3-7-7-, tetramethyl-2-oxa: Lf, Rt, St, Bk, Tw, Bicyclo(5.4.0)-undecan-3-one, 4-oxa-7(R)-11-, 11-trimethyl, (1S): Lf 0.016, 3-(Nitrosomethyloamino)propionic acid: Pl, Bicyclodamascenone A: Lf EO, Bicyclodamascenone B: Lf EO, Biphenyl methane: Lf, Rt, St, Bk, Tw, Bipyridine, 2-3': Pl, Bipyridyl, 2-3', 5-methyl: Lf 0.9, Bipyridyl, 2-3': Lf, Bipyridyl, 2-3'-5-methyl: Lf 11, Blumenol A â-D-glucopyranoside: Lf, Blumenol C: Lf 0.23, Brassicasterol: Sd, But-2-en-4-olide, 3-(4-methyl-1-pe, Lf 0.002, But-3-en-2-one, 3-methyl: Lx (St), Butan-1-ol, 4-(methyl-nitrosamino)-4-(3-, pyridyl): Lf, Butan-1-one, 4-(N-methyl-N-nitrosamino)-1-, (3-pyridyl): Lf, Butan-4-olide, 4-ethyl: Lf, Rt, St, Bk, Tw, Butane-2-3-dione: Lx (St), Buten-2-al: Lx (St), But-trans-2-en-1-one, 1-(2-3-6-trimethylphenyl):, Lf, Butyraldehyde: Lf, Butyric acid, N, caffeoyl-4-amino: Pl, Butyric acid, N, N-caffeoyl-4-amino: Bd, Butyric acid: Lf, Butyronitrile, 1: Lx (St), Cadinene, Ä: Lf, Cadinenol: Lf, Rt, St, Bk, Tw, Caffeic acid: Lf, Calamanene: Lf, Rt, St, Bk, Tw, Campest-7-en-ol: Sd, Campestanol: Sd, Campesterol acyl glycoside: Lf, Campesterol ester: Lf, Campesterol glycoside: Lf, Camphor: Lf, Rt, St, Bk, Tw, Capnos-11-ene-2-10-dione, 4-6-8-trihydroxy:, Fl, Capnos-12(20)-en-2-one, 8(R)-11(S)-epoxy-, 4(S)-6(R)-dihydroxy, (1S-3R-7R): Fl, Capnos-12(20)-ene, 4(S)-6(R)-diol, 2(R)-, 11(R), 8(R)-11(R)-diepoxy, (1S-3S):, Fl, Capric acid: Lf, Caproic acid: Lf, Capronic acid, iso: An, Capsidiol: Pl, Capsidol: Rt, Carboxylase, ribulose-diphosphate: Pl, Cardinene, ã: Lf, Carotene, â: Call Tiss, Carotene: Lf, Carvone: Lf, Rt, St, Bk, Tw, Caryophyllene, â: Lf, Rt, St, Bk, Tw, Catechol: Lf, Cedrene, á: Lf, Rt, St, Bk, Tw, Cedrol: Lf, Rt, St, Bk, Tw, Cembr-2-en-12-one, 4-6-dihydroxy-7-8-epoxy-, 20-nor, (1S-2-trans-4S-6R-7R-8R): Fl, Cembra-2-6-12-(20)-triene-4-8-diol, 11-, hydroperoxy: Lf 0.1, Cembra-2-7-11-trien-6-one, 4(R)-hydroxy,, (1S-2-trans-4R-6R-7-trans-11-trans): Fl, Cembra-2-7-11-trien-6-one, 4(S)-hydroxy,, (1S-2-trans-4S-6R-7-trans-11-trans): Fl, Cembra-2-7-11-triene-4-6-diol, (1S-2-trans-, 4R-6R-7-trans-11-trans): Fl, Cembra-2-7-11-triene-4-6-diol, (1S-2-trans-, 4S-6R-7-trans-11-trans): Fl, Cembra-2-7-11-triene-4-6-diol, á: Lf, Cembra-2-7-12 (20-triene-4-6-11-triol),, (1S-2-trans-4S-6R-7-trans): Fl, Cembra-2-7-dien-12-one, 4-6-dihydroxy-20-, nor, (1S-2-trans-4S-6R-7-trans): Fl, Cembra-2-7-diene-4-6-diol, 11-12-epoxy,, (1S-2-trans-4R-6R-7-trans-11-trans): Fl, Cembra-2-7-diene-4-6-diol, 11-12-epoxy,, (1S-2-trans-4S-6R-7-trans-11-trans): Fl, Cembra-3-7-11-15-tetraen-6-ol: Gum, Cembra-trans-2-12(20)-dien-6-one, 4(S)-8(R)-, 11(S)-trihydroxy, 1(S): Fl, Cembra-trans-2-12(20)-dien-6-one, 4(S)-8(S)-, 11(S)-trihydroxy, 1(S): Fl, Cembra-trans-2-12(20)-dien-6-one, 8(R)-, 11(S)-epoxy-4(S)-hydroxy, 1(S): Fl, Cembra-trans-2-12(20)-diene-4(S)-6(R)-7(S)-, triol, 8(R)-11(S)-epi-dioxy: Fl, Cembra-trans-2-12(20)-diene-4(S)-6(R)-7(S)-, triol, 8(R)-11(S)-epoxy, (1S): Fl, Cembra-trans-2-8(19)-12(20)-triene-4(S)-, 6(R)-7(R)-11(S)-tetraol, (1S): Fl, Cembra-trans-2-8(19)-12(20)-triene-4(S)-, 6(R)-7(S)-11(S)-tetraol, (1S): Fl, Cembra-trans-2-en-6-one, 8(R)-11(S)-epoxy-, 4(S)-12(R)-dihydroxy, 1(S): Fl, Cembra-trans-2-trans-11-diene-4-(S)-6(R)-, diol, 7(R)-8(R)-epoxy. 1(S): Lf, Cembra-trans-2-trans-11-diene-4(S)-6(R)-diol,, 7(S)-8(S)-epoxy, 1(S): Fl, Cembra-trans-2-trans-12-dien-6-one, 8(R)-, 11(S)-epoxy-4(S)-hydroxy, 1(S): Fl, Cembra-trans-2-trans-6-12(20)-trien-4-ol,, Cembra-trans-2-trans-6-12(20)-triene-4(R)-, 8(S)-11(S)-triol, (1S): Fl 14.5, Cembra-trans-2-trans-6-12(20)-triene-4(S)-, 8(S)-11(S)-triol, (1S): Fl, Cembra-trans-2-trans-6-diene-4-12-diol, 8-11-, epoxy, (1S-4S-8S-11R12S): Lf 0.01, Cembra-trans-2-trans-6-trans-10-triene-4(R)-, 8(S)-12(R)-triol, (1S): Fl, Cembra-trans-2-trans-6-trans-10-triene-4(R)-, 8(S)-12(S)-triol, (1S): Fl, Cembra-trans-2-trans-6-trans-10-triene-4(S)-, 8(S)-12(R)-triol, (1S): Fl, Cembra-trans-2-trans-6-trans-10-triene-4(S)-, 8(S)-12(S)-triol, (1S): Fl, Cembra-trans-2-trans-6-trans-11-triene-4-6-, diol, 4-O-methyl, (1S-4R): Lf, Cembra-trans-2-trans-6-trans-12-trien-4-ol,, 8-11-epoxy, (1-2-4-R-8R-11S): Lf 0.03, Cembra-trans-2-trans-6-trans-12-trien-4-ol,, 8-11-epoxy, (1S-4S-8R-11S): Lf 0.2, Cembra-trans-2-trans-6-trans-12-triene-4-6-, diol, 12-hydroperoxy, (1S-4R-6R-12S):, Lf, Cembra-trans-2-trans-7-trans-10-triene-4-6-, diol, 12-hydroperoxy, (1S-4S-6R-12R):, Fl, Cembra-trans-2-trans-7-trans-10-triene-4-6-, diol, 12-hydroperoxy, (1S-4S-6R-12S):, Fl, Cembra-trans-2-trans-7-trans-11-triene, 4(S)-, 10(S)-dihydroxy, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-10-one,, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-10-one,, 4(R)-6(R)-dihydroxy, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-4(R)-, 6(R)-10(R)-triol, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-4(R)-, 6(R)-10(S)-triol, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-4(R)-, 6(R)-13(R)-triol, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-4(S)-, 6(R)-10(R)-triol, (1S): Fl, Cembra-trans-2-trans-7-trans-11-triene-4(S)-, 6(R)-10(S)-triol, (1S): Fl, Cembra-trans-2-trans-7-12(20)-triene-4(R)-, 6(R)-11(S)-triol, (1S): Fl 36.1, Cembra-trans-2-trans-7-12(20)-triene-4(S)-, 6(R)-11(R)-triol, (1S): Fl 9, Cembra-trans-2-trans-7-12(20)-triene-4(S)-, 6(R)-11(S)-triol: Lf, Cembra-trans-2-trans-7-12(20)-triene-4(S)-, 6(R)-diol, 10(R)-11(R)-epoxy, (1S):, Fl, Cembra-trans-2-trans-7-12(20)-triene-4(S)-, 6(R)-diol, 10(S)-11(S)-epoxy, (1S): Fl, Cembra-trans-2-trans-7-12(20)-triene-4-6-diol,, 11-hydroperoxy, (1S-4R-6R-11S): Fl, Cembra-trans-2-trans-7-12(20)-triene-4-6-diol,, 11-hydroperoxy, (1S-4S-6R-11S): Fl, Cembra-trans-2-trans-7-cis-11-triene-4(R)-, 6(R)-10(S)-triol, (1S): Fl, Cembra-trans-2-trans-7-cis-11-triene-4(S)-, 6(R)-20-triol, (1S): Fl, Cembra-trans-2-trans-7-dien-6-one, 11(S)-, 12(S)-epoxy-4(S)-hydroxy, 1(S): Fl, Cembra-trans-2-trans-7-diene-4(R)-6(R)-diol,, 11(R)-12(R)-epoxy, 2(S): Fl, Cembra-trans-2-trans-7-diene-4(S)-6(R)-, 11(S)-12(R)-tetraol, (1S): Fl, Cembra-trans-2-trans-7-diene-4(S)-6(R)-diol,, 11(R)-12(R)-epoxy, 1(S): Fl, Cembra-trans-2-trans-7-diene-4(S)-6(R)-diol,, 11(S)-12(S)-epoxy: Lf, Cembra-trans-2-trans-7-diene-4-6-diol, 11-12-, epoxy, (1S-4R-11S-12S): Lf 0.09, Cembra-trans-2-trans-7-trans-10-trans-6-one,, 4(S)-12(S)-dihydroxy, 1(S): Fl, Cembra-trans-2-trans-7-trans-10-triene-4(R)-, 6(R)-12(R)-triol, (1S): Fl 13.3, Cembra-trans-2-trans-7-trans-10-triene-4(R)-, 6(R)-12(S)-triol, (1S): Fl 21.7, Cembra-trans-2-trans-7-trans-10-triene-4(S)-, 6(R)-12(R)-triol, (1S): Fl 20.5, Cembra-trans-2-trans-7-trans-10-triene-4(S)-, 6(R)-12(S)-triol: Lf, Cembra-trans-2-trans-7-trans-11-triene-4(R)-, 6(R)-diol: Lf, Cembra-trans-2-trans-7-trans-11-triene-4(S)-, 6(R)-diol: Lf, Cembra-trans-2-trans-7-trans-11-triene-4-6-, diol, 4-O-methyl, (1S-4R-6R): Lf, Cembra-trans-2-trans-7-trans-11-triene-4-8-, diol, 4-8-di-O-methyl: Lf, Cembratriendiol, á: Lf, Cembratriendiol, â: Lf, Cembrene: Lf 0.031, Cembrenodienol, á: Lf, Cembrenodienol, â: Lf, Cerotic acid: Sd, Cerotic acid: Sd, Chlorogenic acid: Lf, Chlorophyll A: Call Tiss, Chlorophyll B: Call Tiss, Cholest-7-enol, 4-á-methyl: Sd oil, Cholest-7-enol: Sd oil, Cholesta-7-24-dien-3-â-ol, 4-á-24-dimethyl:, Sd, Cholesta-7-24-dien-3-â-ol, 4-á-methyl-24-, ethyl: Sd, Cholesta-8-24-dien-3-â-ol, 4-á-14-á-24-, trimethyl: Sd, Cholestanol: Sd, Cholesterol acyl glycoside: Lf, Cholesterol ester: Lf, Cholesterol glycoside: Lf, Cholesterol, 24-methylene: Sd oil, Cholesterol: Sd oil, Choline, phosphatidyl: Pl, Choline: Pl, Chrysene: Lf smoke 5.1 ìg/100 Cig, Cineol, 1–8: Lf, Rt, St, Bk, Tw, Cinnamonitrile, dihydro: Cured Lf, Cinnamyl alcohol: Lf, Rt, St, Bk, Tw, Citric acid: Lf, Citronellol: Lf, Rt, St, Bk, Tw, Citrostadienol: Sd oil, Clerosterol: Sd, Coenzyme Q-10: Pl, Collidine,ã: Lf, Coniferyl alcohol: Lf smoke, Cotinine: Lf 95.9, Cotinine: Lf, Coumarin: Lf, Rt, St, Bk, Tw, Cresol, m-: Lf, Cresol, ortho: Lf, Cresol, para: Lf, Crotonaldehyde: Lf, Cupalene: Lf, Rt, St, Bk, Tw, Cupalene: Lf, Rt, St, Bk, Tw, Curcumene, á: Lf, Rt, St, Bk, Tw, Cycloartanol, 24-methylene: Lf, Cycloartanol, 31-nor: Sd, Cycloartanol: Sd oil, Cycloartenol, 24-methylene: Sd oil, Cycloartenol, 31-nor: Sd oil, Cycloartenol: Lf, Cycloeucalenol: Sd oil, Cyclohex-2-en-1-4-dione, 2-6-6-trimethyl-4-, methylene: Lf, Rt, St, Bk, Tw, Cyclohexanone, 4-hydroxy-2-2-6-trimethyl:, Lf, Rt, St, Bk, Tw, Cyclohexanone, 4-hydroxy-3-3-5-trimethyl:, Lf, Rt, St, Bk, Tw, Cyclope, carboxylic acid: Lf, Cyclope, St, Bk, Tw, Cyclopropane-1-carboxylic acid-1-amino: Call, Tiss, Cyperone, á, 2-keto: Lf, Cysteine: Sd, Damascene, â, 3-hydroxy: Lf EO, Damascene, â, 3-hydroxy: Lf, Rt, St, Bk,, Tw, Damascene, â, 4-hydroxy: Lf EO, Damascene, â, 8-9-dihydro, 3-hydroxy:, Lf EO, Damascene, â: Lf, Rt, St, Bk, Tw, Damascenone, â: Lf, Rt, St, Bk, Tw, Damascenone: Lf, Rt, St, Bk, Tw, Daucosterol: Lf, Debneyol, 1-â-hydroxy, 12-O-â-D-glucoside:, Lf 7.4, Debneyol, 1-hydroxy: Pl 3, Debneyol, 7-epi: Pl 1.1, Debneyol, 8-hydroxy: Pl 3, Debneyol: Pl, Deca-cis-2-trans-4-dienoic acid, 6-iso-propyl-3-, methyl-9-oxo: cured Lf, Decane: Smoke, Deca-trans-2-trans-4-dienoate, 9-oxo-6-isopropyl-, 3-methyl, methyl: Lf, Deca-trans-2-trans-4-dienoic acid, 6-iso-propyl-, 3-methyl-9-oxo, (–): LfJ, Deca-trans-2-trans-7-dienoic acid, 6-iso-propyl-, 3-methyl-9-oxo: cured Lf, Deca-trans-4-9-dienoic acid, 3-hydroxy-6-isopropyl-, 3-methyl-9-(5-oxo-tetrahydrofuran-, 2-yl): Lf, Dec-trans-4-en-9-one, 1-3-dihydroxy-6-isopropyl-, 3-methyl, (3-å-6-å): 0.009, Dec-trans-4-enoic acid, 3-å-hydroxy-9-oxo-, 3-å-methyl-6-(S)-iso-propyl: Cured, Lf, Dec-trans-4-enoic acid, 3-hydroxy-6-iso-propyl-, 3-methyl-9-oxo, (6S): Lf 0.037, Dec-trans-4-enoic acid, 3-hydroxy-6-iso-propyl-, 3-methyl-9-oxo: Lf 0.008, Dehydratase, Ä-amino-levulinic acid:, Call Tiss, Dehydrogenase, NADP-linked-glyceraldehyde:, Pl, Docosan-1-ol: Lf, Dodeca-trans-6-trans-9-dienoic acid, 3-psihydrohy-, 4-psi-9-dimethyl: Cured Lf, and many more [Medicinal Plants of The World – Vol.3]
Selected Published articles of Nicotiana tabacum
1. Effects of Nicotiana tobaccum extract additive on the quality of electroplating of zinc on mild steel
Loto, C. A.; Loto, R. T. - POLISH JOURNAL OF CHEMICAL TECHNOLOGY Volume: 15 Issue: 1 Pages: 38-45 Published: 2013
2. An Acyl-acyl Carrier Protein Thioesterase Gene Isolated from Wintersweet (Chimonanthus praecox), CpFATB, Enhances Drought Tolerance in Transgenic Tobacco (Nicotiana tobaccum)
Zhang, Li-Hong; Jia, Baolei; Zhuo, Ren-Ying; et al. - PLANT MOLECULAR BIOLOGY REPORTER Volume: 30 Issue: 2 Pages: 433-442 DOI: http://dx.doi.org/10.1007/s11105-011-0359-5 Published: APR 2012
3. Piscicidal effect of tobacco ( Nicotiana tobaccum) leaf dust on African giant catfish ( Heterobranchus bidorsalis) fingerlings.
Jegede, T.; Olanrewaju, B. - Agriculture and Biology Journal of North America Volume: 3 Issue: 11 Pages: 435-438 DOI: http://dx.doi.org/10.5251/abjna.2012.3.11.435.438 Published: 2012
4. Biogenic synthesis of silver nanoparticles using Nicotiana tobaccum leaf extract and study of their antibacterial effect
Prasad, Kumar Suranjit; Pathak, Darshit; Patel, Ankita; et al. - AFRICAN JOURNAL OF BIOTECHNOLOGY Volume: 10 Issue: 41 Pages: 8122-8130 Published: AUG 3 2011
5. Acute toxicity of tobacco ( Nicotiana tobaccum) leaf dust on the African catfish: Clarias gariepinus (Burchell, 1822).
Kori-Siakpere, O.; Oviroh, E. O. - Archives of Applied Science Research Volume: 3 Issue: 2 Pages: 1-7 Published: 2011
6. Haematological response of Nile tilapia ( Oreochromis niloticus) juveniles exposed to tobacco ( Nicotiana tobaccum) leaf dust.
Olufayo, M. O.; Jatto, I. A. - Better science, better fish, better life. Proceedings of the Ninth International Symposium on Tilapia in Aquaculture, Shanghai, China, 22-24 April 2011 Pages: 52-55 Published: 2011
7. Effects of Sublethal Concentrations of Tobacco (Nicotiana Tobaccum) Leaf Dust on Some Biochemical Parameters of Hybrid Catfish (Clarias gariepinus and Heterobranchus Bidorsalis)
Adamu, Kabir Mohammed; Kori-Siakpere, Ovie - BRAZILIAN ARCHIVES OF BIOLOGY AND TECHNOLOGY Volume: 54 Issue: 1 Pages: 183-196 DOI: http://dx.doi.org/10.1590/S1516-89132011000100023 Published: JAN-FEB 2011
8. Extraction of solanesol from tobacco ( nicotiana tobaccum L.) leaves by bubble column
Chunjian Zhao; Yuangang Zu; Chunying Li - Chemical Engineering and Processing Volume: 48 Issue: 1 Pages: 203-8 DOI: http://dx.doi.org/10.1016/j.cep.2008.03.005 Published: Jan. 2009
9. Extraction of solanesol from tobacco (Nicotiana tobaccum L.) leaves by bubble column
Zhao, Chunjian; Zu, Yuangang; Li, Chunying - CHEMICAL ENGINEERING AND PROCESSING Volume: 48 Issue: 1 Pages: 203-208 DOI: http://dx.doi.org/10.1016/j.cep.2008.03.005 Published: JAN 2009
10. Phytoremediation of cadmium contaminated soil by tobacco (Nicotiana tobaccum L. var. vr. 3) plant
Sharavanan, P. S.; Arivalagan, V.; Ravimycin, T.; et al. - PLANT ARCHIVES Volume: 7 Issue: 2 Pages: 817-819 Published: OCT 2007
11. ENVR 100-Manganese critical toxic level of sunflower (Helianthus annuus L.), tobacco (Nicotiana tobaccum L.) and triticale (X Triticosecale W.)
Laszlo, Marton - ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Volume: 234 Meeting Abstract: 100-ENVR Published: AUG 19 2007
12. Trends in Indian flue cured Virginia tobacco ( Nicotiana tobaccum) processing: II. Threshing, packing and warehousing.
Manickavasagan, A.; Gunasekaran, J. J.; Doraisamy, P. - Research Journal of Agriculture and Biological Sciences Volume: 3 Issue: 6 Pages: 682-686 Published: 2007
13. Trends in Indian flue cured Virginia tobacco ( Nicotiana tobaccum) processing: I. Harvesting, curing and grading.
Manickavasagan, A.; Gunasekaran, J. J.; Doraisamy, P. - Research Journal of Agriculture and Biological Sciences Volume: 3 Issue: 6 Pages: 676-681 Published: 2007
14. Nicotiana (Nicotiana tobaccum, Nicotiana benthamiana)
Clemente, Tom - Methods in Molecular Biology Book Series: METHODS IN MOLECULAR BIOLOGY Volume: 343 Pages: 143-154 Published: 2006
15. Separation and purification of tobacco peroxidase I from Nicotiana tobaccum
Xia, B; Liu, QL; Li, ML; et al. - CHINESE JOURNAL OF CHEMICAL ENGINEERING Volume: 11 Issue: 3 Pages: 341-343 Published: JUN 2003
16. Effect of lethal and sub-lethal concentrations of tobacco ( Nicotiana tobaccum) leaf dust extract on weight and hematological changes in Clarias gariepinus (Burchell).
Omoniyi, I.; Agbon, A. O.; Sodunke, S. A. - Journal of Applied Science & Environmental Management Volume: 6 Issue: 2 Pages: 37-41 Published: 2002
17. Acute toxicity of tobacco ( Nicotiana tobaccum) leaf dust on Oreochromis niloticus and haematological changes resulting from sublethal exposure.
Agbon, A. O.; Omoniyi, I. T.; Teko, A. A. - Journal of Aquatic Sciences Volume: 17 Issue: 1 Pages: 5-8 Published: 2002
18. Genetic analysis of quantitative traits in Nicotiana tobaccum. II. Genetic variation between generations.
Wang ChunMing; Zhai HuQu - Journal of Nanjing Agricultural University Volume: 21 Issue: 4 Pages: 7-11 Published: 1998
19. Tobacco (Nicotiana tobaccum) nuclear transgenics with high copy number can express NPTII driven by the chloroplast psbA promoter
Ye, GN; Pang, SZ; Sanford, JC - PLANT CELL REPORTS Volume: 15 Issue: 7 Pages: 479-483 Published: MAR 1996
20. ECOTOXICOLOGICAL ASPECTS OF ASPERGILLI PRESENT IN THE PHYLLOPLANE OF STORED LEAVES OF CHEWING TOBACCO (NICOTIANA-TOBACCUM)
VARMA, SK; VERMA, RAB; JHA, AK - MYCOPATHOLOGIA Volume: 113 Issue: 1 Pages: 19-23 DOI: http://dx.doi.org/10.1007/BF00436380 Published: JAN 1991
21. Studies on the chemical control of broomrape ( Orobanche aegyptiaca pers.) in tobacco ( Nicotiana tobaccum L.) fields.
Mazaheri, A.; Vaziri, M.; Moayed-Zadeh, N. - Proceedings of the 5th international symposium of parasitic weeds, Nairobi, Kenya, 24-30 June 1991. Pages: 90-92 Published: 1991
22. Growth and phenotype analysis of transformation of tobacco ( Nicotiana tobacum) with BIO ORGANS ( BIO) and mutant gene bio in Lotus japonicus.
Li Ying; Liu JiYan; Hu JiangQing; et al. - Journal of Agricultural Biotechnology Volume: 20 Issue: 11 Pages: 1244-1252 Published: 2012
23. Effect of integrated nutrient management on yield of Flue Cured Virginia tobacco ( Nicotiana tobacum L.) and soil properties.
Hussain Almahasneh; Babu, M. S. G.; Nanjappa, H. V. - Mysore Journal of Agricultural Sciences Volume: 46 Issue: 2 Pages: 311-314 Published: 2012
24. Effect of optimized application of nitrogen on nitrogen volatilization in Nicotiana tobacum shoots at rapid growth and maturity stages.
Wang Jun; Chen NengChang; Ding XiaoDong; et al. - Zhongguo Shengtai Nongye Xuebao / Chinese Journal of Eco-Agriculture Volume: 20 Issue: 10 Pages: 1268-1275 Published: 2012
25. Selected Physiological and Molecular Responses of Arabidopsis thaliana and Nicotiana tobacum Plants Irrigated with Perchlorate-containing Water
Hamissou, Mijitaba - Asian Journal of Plant Sciences Volume: 10 Issue: 4 Pages: 255-262 DOI: http://dx.doi.org/10.3923/ajps.2011.255.262 Published: MAY 15 2011
26. Changes of nitrogenous compound according to the topping stage and harvesting time in burley tobacco ( Nicotiana tobacum L.).
Jang SooWon; Kim JaeHyun; Park ChangJin; et al. - Korean Journal of Crop Science / Hanguk Jakmul Hakhoe Chi Volume: 56 Issue: 2 Pages: 146-150 Published: 2011
27. The effectiveness of home made organic pesticides derived from wild plants ( Solanum pindiriforme and Lippia javanica), garlic ( Allium sativum) and tobacco ( Nicotiana tobacum) on aphid ( Brevicoryne brassica) mortality on rape ( Brassica napus) plants.
Mhazo, M. L.; Mhazo, N.; Masarirambi, M. T. - Research Journal of Environmental and Earth Sciences Volume: 3 Issue: 5 Pages: 457-462 Published: 2011
28. Monogalactosyldiacylglycerol deficiency affects jasmonic acid biosynthesis and defense responses to insect herbivores in Nicotiana tobacum
Wang, Junbin - PLANT SCIENCE Volume: 176 Issue: 2 Pages: 279-285 DOI: http://dx.doi.org/10.1016/j.plantsci.2008.11.003 Published: FEB 2009
29. Continuous counter current extraction, isolation and determination of solanesol in Nicotiana tobacum L. by non-aqueous reversed phase high performance liquid chromatography
Rao, R. Nageswara; Talluri, M. V. N. Kumar; Krishna, T. S. V. N. Murah; et al. - JOURNAL OF PHARMACEUTICAL AND BIOMEDICAL ANALYSIS Volume: 46 Issue: 2 Pages: 310-315 DOI: http://dx.doi.org/10.1016/j.jpba.2007.10.014 Published: JAN 22 2008
30. Expression of protein elicitor-encoding gene pemG1 in tobacco ( Nicotiana tobacum cv. Samsun NN) plants and enhancement of resistance to TMV.
Mao JianJun; Qiu DeWen; Yang XiuFeng; et al. - Acta Agronomica Sinica Volume: 34 Issue: 12 Pages: 2070-2076 Published: 2008
31. Cloning of taxane 13alpha-hydroxylase from Taxus cuspidata and its transformation to Nicotiana tobacum.
Teng WenJing; Hu XinLing; Wang Wei; et al. - China Biotechnology Volume: 28 Issue: 2 Pages: 53-58 Published: 2008
32. Yield and quality of flue-cured Virginia tobacco, Nicotiana tobacum L. as affected by different levels of fico-micron and boron.
Khan, Z. H.; Hameed Gul; Habib Akber; et al. - Sarhad Journal of Agriculture Volume: 24 Issue: 2 Pages: 211-215 Published: 2008
33. Immunofluorescent localization of 4-coumarate coenzyme a ligase of Nicotiana tobacum
Fan, Bing-you; Lu, Hai; Jiang, Xiang-ning - Xibei Zhiwu Xuebao Volume: 27 Issue: 6 Pages: 1073-1077 Published: JUN 2007
34. High threonine producing lines of Nicotiana tobacum and methods of producing
Patent Number: US 07173170
Patent Assignee: Reynolds Technologies Inc - Official Gazette of the United States Patent and Trademark Office Patents Published: FEB 6 2007
35. Effects of shading at fast-growing stage and light intensity transfer on photosynthetic efficiency in tobacco ( Nicotiana tobacum L.) varieties.
Liu GuoShun; Zhao XianZhang; Wei FengJie; et al. - Scientia Agricultura Sinica Volume: 40 Issue: 10 Pages: 2368-2375 Published: 2007
36. Transient expression of human growth hormone in potato (Solanum tuberosum), tobacco (Nicotiana tobacum) and lettuce (Lactuca sativa)e leaves by agroinfiltration
Sohi, Haleh Hashemi; Jourabchi, Esmat; Khodabandeh, Mahvash - Iranian Journal of Biotechnology Volume: 3 Issue: 2 Pages: 109-113 Published: APR 2005
37. Observation on microfilaments of actin during cytomixis in pollen mother cells of tobacco (Nicotiana tobacum)
Yang Jun; Peng Zheng-song; Li Wei; et al. - Xibei Zhiwu Xuebao Volume: 24 Issue: 12 Pages: 2286-2290 Published: December 2004
38. Ultrastructural observation on the cellular skeleton during cytomixis in pollen mother cells of tobacco (Nicotiana tobacum)
Yang Jun; Peng Zheng-song; Li Wei; et al. - Acta Botanica Yunnanica Volume: 26 Issue: 3 Pages: 329-337 Published: June 2004
39. High threonine producing lines of Nicotiana tobacum and methods for producing
Patent Number: US 6730832 - Official Gazette of the United States Patent and Trademark Office Patents Volume: 1282 Issue: 1 Published: May 4, 2004
40. A novel isoenzyme of CuZn-superoxide dismutase from Nicotiana tobacum
Sheng, LQ; Liu, SM; Xiao, HR; et al. - CHINESE CHEMICAL LETTERS Volume: 15 Issue: 5 Pages: 543-546 Published: MAY 2004
41. Spectroscopic studies on the interaction between azide and PPO II from Nicotiana tobacum
Xiao, HR; Xu, XL; Xie, YS; et al. - CHINESE JOURNAL OF INORGANIC CHEMISTRY Volume: 20 Issue: 5 Pages: 591-595 Published: MAY 2004
42. Observation on microfilaments of actin during cytomixis in pollen mother cells of tobacco ( Nicotiana tobacum).
Yang Jun; Peng ZhengSong; Li Wei; et al. - Acta Botanica Boreali-Occidentalia Sinica Volume: 24 Issue: 12 Pages: 2286-2290 Published: 2004
43. Antimicrobial screening of Nicotiana tobacum on organisms isolated from patients with respiratory tract infection
Adeleye, IA; Uwagboe, UC - WEST INDIAN MEDICAL JOURNAL Volume: 52 Issue: 4 Pages: 325-326 Published: DEC 2003
44. Selection indices for cured leaf yield and nicotine content in tobacco (Nicotiana tobacum L.).
Devanand, V.; Manjunath, A.; Rangaiah, S.; et al. - Indian Journal of Genetics & Plant Breeding Volume: 63 Issue: 3 Pages: 279-280 Published: August 2003
45. Effect of herbicides on weeds and seed yield of tobacco ( Nicotiana tobacum L.).
Kataria, O. P.; Chauhan, D. R.; Balyan, R. S. - Indian Journal of Weed Science Volume: 35 Issue: 1/2 Pages: 151-152 Published: 2003
46. Expression stability of marker gene npt II in transgenic plants Nicotiana tobacum L. with single T-DNA insertion
Novoselia, V; Deineko, EV; Filipenko, EA; et al. - BIOTECHNOLOGY & BIOTECHNOLOGICAL EQUIPMENT Volume: 15 Issue: 2 Pages: 3-7 Published: 2001
47. Fast apple (Malus x domestica) and tobacco (Nicotiana tobacum) leaf polyphenol oxidase activity assay for screening transgenic plants
Broothaerts, W; McPherson, J; Li, BC; et al. - JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY Volume: 48 Issue: 12 Pages: 5924-5928 DOI: http://dx.doi.org/10.1021/jf000599m Published: DEC 2000
48. Cytomorphological study of male sterility in burley tobacco (Nicotiana tobacum)
Chen Xiao-bin; Cao You-long; Jia Yong-jiong; et al. - Sichuan Daxue Xuebao (Ziran Kexueban) Volume: 37 Issue: 6 Pages: 924-929 Published: Dec., 2000
49. Identification and characterization of a novel vacuolar compartment in nicotiana tobacum
Jiang, L; Phillips, TE; Rogers, JC - MOLECULAR BIOLOGY OF THE CELL Volume: 10 Supplement: S Pages: 111A-111A Meeting Abstract: 641 Published: NOV 1999
50. Studies on the preparation of coenzyme Q 10 from tobacco ( Nicotiana tobacum L.) cells in suspension culture.
Kang QiLiang; Mu Hong; Xu FengCai - Journal of South China Agricultural University Volume: 20 Issue: 4 Pages: 59-64 Published: 1999
51. ISOLATION AND PURIFICATION OF A B-TYPE CYTOCHROME FROM PLASMA-MEMBRANES OF NICOTIANA-TOBACUM
LAMBRECHTS, D; ASARD, H; CAUBERGS, R; et al. - ARCHIVES INTERNATIONALES DE PHYSIOLOGIE DE BIOCHIMIE ET DE BIOPHYSIQUE Volume: 96 Issue: 1 Pages: PP19-PP19 Published: MAR 1988
52. Effects of rates and sources of nitrogen fertilization on the yield and quality of flue-cured tobacco ( Nicotiana tobacum L.) on bris sandy soil in Malaysia.
Azman, W. I. W.; Aziz, A.; Salbiah, H. - Proceedings of the International Tobacco Scientific Congress, 9-13 October, 1988, Guangzhou, China. Pages: 92-93 Published: 1988
53. COMPARATIVE PERFORMANCE OF CHEWING TOBACCO (NICOTIANA-TOBACUM L) IN VARIOUS CROPPING PATTERNS UNDER RAINFED CONDITIONS OF NORTH BIHAR
SINHA, R; DWIVEDI, SSL; PANDEY, AK - INDIAN JOURNAL OF AGRONOMY Volume: 29 Issue: 1 Pages: 61-67 Published: 1984
54. THE EFFECTS OF ASPIRIN AND POLYACRYLIC-ACID ON THE MULTIPLICATION AND SPREAD OF TMV IN DIFFERENT CULTIVARS OF TOBACCO WITH AND WITHOUT THE N-GENE
WHITE, RF; ANTONIW, JF; CARR, JP; et al. - PHYTOPATHOLOGISCHE ZEITSCHRIFT-JOURNAL OF PHYTOPATHOLOGY Volume: 107 Issue: 3 Pages: 224-232 Published: 1983
55. The analysis of inheritance of quantitative characters in Oriental tobacco varieties (Nicotiana tobacum L.) in a diallel cross. II. Gene distribution and analysis of variance for each character in the F1 generation.
Jung, S. H.; Hwang, J. K.; Son, S. H. - J. Korean Soc. Tob. Sci. Volume: 4 Issue: 1 Pages: 15-20 Published: 1982
56. STYRENE COPOLYMERIZATION OF ISOMERIZED TOBACCO SEED (NICOTIANA TOBACUM) OIL AND ITS ALKYD
SAXENA, MS; JAIN, PK; VASISHTHA, AK - JOURNAL OF THE OIL & COLOUR CHEMISTS ASSOCIATION Volume: 65 Issue: 11 Pages: 409-414 Published: 1982
57. CELLULAR STUDY OF IN INVITRO AND DE NOVO DIFFERENTIATION OF VEGETATIVE SHOOTS, ROOTS, OR CALLOSITY FROM THIN-SECTIONS OF EPIDERMAL-CELLS OF NICOTIANA - TOBACUM WISC-38
TRANTHANHVAN, M; DIEN, NT - CANADIAN JOURNAL OF BOTANY-REVUE CANADIENNE DE BOTANIQUE Volume: 53 Issue: 6 Pages: 553-559 Published: 1975
58. PRESENCE OF ADENOSINE-TRIPHOSPHATE IN TOBACCO (NICOTIANA-TOBACUM) TISSUE GROWN IN NUTRIENT MEDIUM CONTAINING VARIOUS CONCENTRATIONS OF KINETIN
FENG, KA; UNGER, JW - EXPERIENTIA Volume: 31 Issue: 1 Pages: 31-32 DOI: http://dx.doi.org/10.1007/BF01924662 Published: 1975
59. SENSITIVITY OF INDUCED LOCALIZED ACQUIRED RESISTANCE TO ACTINOMYCIN D
LOEBENST.G; RABINA, S; VANPRAAG.T - VIROLOGY Volume: 34 Issue: 2 Pages: 264-& DOI: http://dx.doi.org/10.1016/0042-6822(68)90235-3 Published: 1968
60. AUXIN-AUTOTROPHIE UND CHROMOSOMENZAHL - UNTERSUCHUNGEN AN ALTEN SPONTAN HABITUIERTEN UND CROWNGALL-KALLUS-KULTUREN VON NICOTIANA TABACUM AUS DEM LABORATORIUM GAUTHERETS
SACRISTA.MD - MOLECULAR AND GENERAL GENETICS Volume: 99 Issue: 4 Pages: 311-& Published: 1967
61. EFFECT OF TOBACCO MOSAIC VIRUS INFECTION ON GLUCOSE METABOLISM IN NICOTIANA TOBACUM VAR SAMSUN .I. INVESTIGATIONS WITH 14C-LABELED SUGARS
BAUR, JR; HALLIWEL.RS; LANGSTON, R - VIROLOGY Volume: 32 Issue: 3 Pages: 406-& DOI: http://dx.doi.org/10.1016/0042-6822(67)90291-7 Published: 1967
62. A NEW ISOLATION MEDIUM FOR PLANT ORGANELLES
HONDA, SI; HONGLADA.T; LATIES, GG - JOURNAL OF EXPERIMENTAL BOTANY Volume: 17 Issue: 52 Pages: 460-& DOI: http://dx.doi.org/10.1093/jxb/17.3.460 Published: 1966
63. GROWTH OF SINGLE CELLS FROM NICOTIANA TOBACUM CALLUS TISSUE IN NUTRIENT MEDIUM CONTAINING AGAR
GIBBS, JL; DOUGALL, DK - EXPERIMENTAL CELL RESEARCH Volume: 40 Issue: 1 Pages: 85-& DOI: http://dx.doi.org/10.1016/0014-4827(65)90292-2 Published: 1965
64. CHANGES IN BLACK SHANK DISEASE REACTION OF SUSCEPTIBLE TOBACCO ( NICOTIANA TABACUM ) INDUCED BY GAMMA IRRADIATION
APPLE, JL - PHYTOPATHOLOGY Volume: 54 Issue: 1 Pages: 23-& Published: 1964
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