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Abduelrahman AHN., Osman ESA., and Nour, AH. (2009). Morphological Variability and Chemical Composition of Essential Oils from Nineteen Varieties of Basil (Ocimum basilicum L.) Growing in Sudan. Int. J. of Chem. Tech., 1: 1-10.

Achnine L., Blancaflor E B., Rasmussen S. and Dixon RA. (2004). Colocalization of L-phenylalanine ammonia-lyase and cinnamate 4-hydroxylase for metabolic channeling in phenylpropanoid b Reuveni iosynthesis. Plant Cell, 16:3098-3109.

Adler PR., Simon JE. and Wilcox GE. (1989). Nitrogen form alters basil growth and essential oil content and composition. Hort. Sci., 24: 789–790.

Aga E., Bekele E. and Bryngelsson T. (2005). Inter-simple sequences repeat (ISSR) variation in forest coffee trees (Coffea arabica L.) populations from Ethiopia. Genetica, 124: 213–221.

Aghaei M., Darvishzadeh R. and Hassani A. (2012). Molecular characterization and similarity relationships among Iranian basil (Ocimum basilicum L.) accessions using Inter Simple Sequence Repeat markers. Rev. Ciênc. Agron., 43 (2): 312-320.

Agostini G., Echeverrigaray S. and Souza-Chies TT. (2008). Genetic relationship among South American species of Cunila D. Royen ex L. based on ISSR. Plant Syste. and Evoloution, 274:135-141.

Ahmad A., Khan A., Manzoor N. and Khan LA. (2010). Evolution of ergo-sterol biosynthesis ergosterol /er·gos·te·rol/ (er-gos´te-rol) a sterol occurring mainly in yeast and forming ergocalciferol (vitamin D2) on ultraviolet irradiation or electronic bombardment.
er·gos·ter·ol
n.
..... Click the link for more information. Biosynthesis

The synthesis of more complex molecules from simpler ones in cells by a series of reactions mediated by enzymes. The overall economy and survival of the cell is governed by the interplay between the energy gained from the breakdown of compounds


..... Click the link for more information. inhibitors as fungicidal against Candida. Microb. Pathog. 8: 35-41

Ahmad MM., Rehman SUZ., Iqbal FM., Anjum and Sultan JI. (2006). Genetic variability to essential oil composition in four citrus fruit species. Pak. J. of Botany, 38: 319-324.

Ahmad SD. and Khaliq I. (2002). Morpho-molecular Variability and Heritability in Ocimum sanctum Genotypes from Northern Himalayan Regions of Pakistan. Pak. journal of biological science, 5 (10):1084-1087.

Ahmed MO., Abuzweda AR., Alghazali MH., Elramalli AK., Amri SG. and Aghila ES. (2010a). Misidentification of methicillin-resistant Staphylococcus aureus (MRSA) in hospitals in Tripoli, Libya. Libyan J Med, 5.

Ahonkhai I., Ayinde BA., Edogun O. and Uhuwmangho MU. (2009). Antimicrobial activities of the volatile oils of Ocimum bacilicum l. and Ocimum gratissimum l. (lamiaceae) against some aerobic dental isolates. Pak. J. Pharm. Sci., 22(4):405-409

Akujobi CO., Ogbulie JN. and Njoku, HO. (2010). The extract of Ocimum gratissimum on the dehydrogenase activities to clinical isolates of Escherichia coli and Staphylococcus aureus. Journal of Agri. Technology. 6 (1): 57-65

Ali AA., Makboul MA., Assaf MH. and Anton R. (1986). Constituents of the essential oil of Egyptian majoram. Bull. Fac. Sci. Assiut Univ., 15(1): 79-87.

Alishah HM., Heidari R., Hassani A. and Dizaji AA. (2006). Effect of Water Stress on Some Morphological and Biochemical Characteristics of Purple Basil (Ocimum basilicum). Journal of Biological Sciences, 6 (4):763-767

Al-Nowaihi AS., Khalifa SF., Badr A. and Sharawy SM. (2002). Species relationships of Astragalus L. in Egypt based on storage seed protein electrophoretic criteria. Proc. 2nd Int. Conf. Biol. Sci., Tanta Univ., Egypt, 2:174-188

Angioni A., Barra A., Coroneo V., Dessi S. and Cabras P. (2006). Chemical composition, seasonal variability, and antifungal activity of Lavandula stoechas L. ssp. Stoechas essential oils from stem/leaves and flowers. J. Agric. Food Chem., 54: 4364–4370.

Anwar F., Ali M., Hussain A I. and Shahid M. (2009b). Antioxidant and Antimicrobial Activities of Essential Oil and Extracts of Fennel (Foeniculum vulgare Mill.) Seeds from Pakistan. Flavor and Fragrances Journal, 24:170-176.

Anwar F., Hussain A I. Sherazi, T H. and Bhanger MI. (2009a). Changes in composition, antioxidant and antimicrobial activities of essential oil of fennel (Foeniculum vulgare Mill.) fruits at different stages of maturity. J. of Herbs, Spices and Med. Plants, 15:1-16.

Anwar M., Patra, DD., Chand S., Kumar A., Naqvi AA. and Khanuja SPS. (2005). Effect of organic manures and inorganic fertilizer on growth, herb and oil yield, nutrient accumulation, and oil quality of French basil. Commun. Soil Sci. Plant Anal., 36:17371746.

Ashurst PR. (1991). Food Flavorings. 2nd Edn., Chapman and Hall, UK., pp: 25-35.

Badr A. (1995). Electrophoretic studies of seed proteins relation to chromosomal criteria and relationships of some taxa of Trifolium. Taxon, 44: 183–191.

Badr A., Abou EEMM. and Shazly, EHH.(1998).Variation in seed protein electrophoretic pattern and species relationships in Sesbania. Proceedings of the 6th Egyptian conference of plant sciences, Cairo University, 3:493-501.

Badr A., Ahmed, SH., Shanshoury EA. and Watson LE. (2002). Ancestor of white colver (Trifolium repens L.), as revealed by isozyme polymorphism. Theor. Applied Genet., 106:143-148.

Badr A., Mustafa, AMA., El-Galaly MA., Mobarak AA. and Hassan MG. (2003). Genetic diversity among Mentha populations in Egypt as reflected by morphological and electrophoretic variation. Proc. First Egyptian-Syrian conf. Agriculture and Food in Arabic Nations, Menya University, Egypt, 8-11 Dec., 2003, 1: 269-286.

Baker GR, Lowe RF, and Southwell IA. (2000). Comparison of oil recovered from tea tree leaf by ethanol extraction and steam distillation. J. of Ag. Food Chem.. 48: 4014-4043.

Baker RJ. (1988).Test for crossover genotype-environmental interactions. Canadian Journal of plant science, 30: 556-561.

Bakkali F., Averbeck S., Averbeck D. and Idaomar M. (2008). Biological effects of essential oils- A review. J. of Food Chem. Toxicol., 46: 446-475

Barcaccia G., Pallotiini, L., Soattin M., Lazzarin R., Parrini P. and Lucchin M. (2003). Genomic DNA fingerprinting as a tool for identifying cultivated types of radicchio (Cichorium intybus L.) from Veneto, Italy. Plant breeding, 122: 178-183.

Barley LH. (1924). Manual of Cultivated Plants, MacMillan, New York,

Bassole IHN., Nebie R., Savadogo A., Ouattara CT. Barro N. and Traore SA. (2005). Composition and antimicrobial activities of the leaf and flower essential oils of Lippia chevalieri and Ocimum canum from Burkina Faso. Afri. J. Biotech., 4 (10): 1156-1160.

Batista F., Banares A., Castelis JC., Carque G., and Sosa PA. (2001). Allozyme diversity in three endemic species of Cistus from the Canary Islands: Infraspecific and Interspecific comparisons and implications for genetic conservation. Am. Bot., 88:1582-1592

Bauer AW., Kirby WMM., Sherris JC. and Turck M.  (1966). Antibiotic susceptibility testing by a standardized single disk method. Am. J. Clin. Pathol, 36:493-496.

Bauer K., Garbe., and Surburg H. (2001). Common Fragrance and Flavor Materials: Preparation, Properties and Uses. Wiley-VCH, Weinheim, p. 293.

Becker HC. and Leon J. (1988). Stability analysis in plant breeding. Plant Breed, 101:1-23.

Bendini A., Toschi TG. and Lercker G. (2002). Antioxidant activity of oregano leaves. Italian Journal of Food Science, 14:17-25.

Bentham G. (1832). Ocimum. Salvia. Labiatarum genera et species. Ridgeway L Sons, London, UK, pp 260.

Bentham G. (1848). Labiatae. In A. De Candolle [ed.], Prodromus systematis naturalis regni vegetabilis, Vol. 12, 27–603. Treuttel et Wurtz, Paris, France.

Betts TJ. (2001).Chemical characterization of the different types of volatile oil constituents by various solute retention ratios with the use of conventional and novel commercial gas chromatographic stationary phases. J. Chromat., 936:33-46.

Bhat KV., Amaravathi Y., Gautam PL. and Velayudhan KC. (2004). AFLP characterization and genetic diversity analysis of Indian banana and plantain cultivars. Plant Genet Resour, 2:121-130.

Bhattacharjee SK. (1998). A hand book of Medicinal plants. Pointer Pub. Jaipur India, 241-242.

Boisselier-Dubayle MC., Lambourdiere J. and Bischler H. (1995b). Taxa delimitation in Reboulia investigated with morphological, cytological and isozyme markers. The bryologist, 101 (1): 61-69.

Bonaccorsi JU., Chowdhury M., Yusuf and Dugo G. (2002). Studies on the essential oil-bearing plants of Bangladesh. Part VIII. Composition of some Ocimum oils O. basilicum L.var. Purpurascens; O. sanctum L. green, O. sanctum L. purple, O. americanum L., citral type; O. americanum L., camphor type. Flav. Fragr. J,17:335-340.

Bonnardeaux J. (1992). The effect of different harvesting methods on the yield and qualityof basil oil in the Ord River irrigation area. J. of Ess. Oil Res., 4:65-69.

Bosabaldis A., Gabrieli C. and Niopas I. (1998). Flavone aglycones in glandular hairs of Origanam x intercedens. Phytochemistry, 49:1549-1553.

Bousbia N., Vian MA., Ferhat MA., Petitcolas E., Meklati BY. and Chemat F. (2009). Comparison of two isolation methods for essential oil from rosemary leaves: Hydrodistillation and microwave hydrodiffusion and gravity. Food Chemistry, 114(1): 355–362.

Bouzid N., Vilarem G. and Graset A. (1997). Extraction desnuiles essentielles pardes technologies non conventionnelles in proceeding of the intern Congr. Arom. Medicinal plants and essential oils, benjilali B, ettalibi M, ismaili-Alaoui M,zrira S (eds). Actes editions, rabat, morocco;115-120.

Bowes KM. and Zheljazkov VD. (2004). Factors affecting yields and essential oil quality of Ocimum sanctum L. and Ocimum basilicum L. Cultivars. Journal American Society Horticultural Science, 129: 789-794.

Bowles EJ. (2003).Chemistry of Aroma therapeutic oils. 174114051XAllen & Unwin.

Bozin B., Dukic NM., Simin N. and Anackov G. (2006). Characterization of the volatile composition of essential oils of some lamiaceae species and the antimicrobial and antioxidant activities of the entire oils. J. of Agri. and Food Chem., 54: 1822-1828.

Briquet J. (1897). Ocimum In: Engler A, Prantle KAE (eds) Die naturlichen Pflanzenfamilien, vol 4(3a). Engelmann W, Leipzig, pp 369–372.

Brosseau M. (1997). Procede assiste par micro-onde (MAPTM): application a l’extraction d’huiles essentielles. In Proceedings of the Intern. Congr. Arom. Medicinal Plants & Essential Oils, Benjilali B, Ettalibi M, Ismaili-Alaoui M, Zrira S (eds). Actes Editions, Rabat, Morocco, 121–126.

Buchbauer G. (2000). The detailed analysis of essential oils leads to the understanding of their properties. Perfumer and Flavorist, 25: 64–67.

Bunrathep S., Lockwood GB., Songsak T. and Ruangrungsi N. (2006). Chemical constituents from leaves and cell cultures of Pogostemon cablin and use of precursor feeding to improve patchouli alcohol level. Science Asta, 32: 293-296.

Burt S. (2004). Essential oils: their antibacterial properties and potential applications in food- a review. Int. J. Food Micro boil, 94:223-253.

Caccioni DRL., Gardini F., Lanciotti R. and Guerzoni ME. (1997). Antifungal activity of natural volatile compounds in relation to their vapour pressure. Sciences des Aliments, 17: 21-34.

Caetano AG., Bassam BJ. and Gresshoff PM. (1993). Enhanced detection of polymorphic DNA by multiple arbitrary amplicon profiling of endonuclease digested DNA: identification of markers linked to the supernodulation locus of soybean. Mol. Gen. Genetics, 241: 57-64.

Caetano AG., Bassam, BJ. and Gresshoff PM. (1991b). DNA amplification finger- printing: a strategy for genome analysis. Plant Mol. Biol. Reporter, 9: 292-305.

Caetano-Anollés G., Bassam BJ. and Gresshoff PM. (1993). Enhanced detection of polymorphic DNA by multiple arbitrary amplicon profiling of endonuclease digested DNA: identification of markers linked to the super nodulation locus of soybean. Mol. Gen. Genetics, 241: 57-64.

Cantino PD., Harley RM. and Wag staff SJ. (1992). Genera of Labiatae: status and Richmond, Royal Botanic Gardens, Kew. pp. 511-522.

Cardeiro GM., Pan YBH. and Henry RJ. (2003). Sugarcane microsatellite for the assessment of genetic diversity in sugarcane germplasm. Plant Sci., 165: 181-189.

Carovic K., Liber Z., Javornik B., Kolak I. and Satovic Z. (2007). Genetic relation- ships within basil (Ocimum) as revealed by RADP and AFLP markers. Acta Hort. (ISHS) 760:171-178

Carovic´-Stanko K., Liber Z., Besendorfer V., Javornik B., Bohanec B, Kolak I. and Satovic Z. (2010). Genetic relations among basil taxa (Ocimum L.) based on molecular markers, nuclear DNA content, and chromosome number. Plant Syst Evol, 285:13–22

Carovic-Stanko K., Sandi OS., Politeo O., Strikic F., Kolak I., Milos M. and Satovic Z. (2010b).Composition and antibacterial activities of essential oils of seven Ocimum taxa. Food Chem., 119 (1):196–201.

Catalan CAN. and Lampasona. DE. (2002). The chemistry of the genus Lippia.

Celiktas OY., Kocabas EEH., Bedir E., Sukan FV., Ozek T. and Baser KHC. (2007). Antimicrobial activities of methanol extracts and essential oils of Rosmarinus officinalis, depending on location and seasonal variations. Food Chem., 100:553-59.

Cervato G., Carabelli M., Gervasio S., Cittera A., Cazzola R. and Cestaro B. (2000). Antioxidant properties of oregano (Origanum vulgare) leaf extracts. J Food Biochem, 24:453-456.

Chagonda LS., Makanda CD. and Chalchat JC. (2000). The essential oils of Ocimum canum Sims (basilic camphor) and Ocimum urticifolia Roth from Zimbabwe. Flav. Fragr. J., 15: 23–26.

Chalchat JC. and Ozcan MM. (2008). Comparative essential oil composition of flowers, leaves and stems of basil (Ocimum basilicum L.) used as herb. Food Chem, 110: 501-503.

Chalchat JC., Garry RP. and Muhayimana A. (1995). Essential oil of Tagetes minuta from Rwanda and France: chemical composition according to harvesting location, growth stage and part of plant extracted. J. of Ess. Oil Res., 7:375-386.

Chang X., Alderson PG. and Wright CJ. (2008). Solar irradiance level alters the growth of basil (Ocimum basilicum L.) and its content of volatile oils. Env. and Exp. Bot., 63: 216–223.

Charles DJ. and Simon JE. (1992). A new geraniol chemotype of Ocimum gratissimum L. J. Ess. Oil Res., 4, pp. 231–234.

Charls DJ. and Simon JE. (1990). Comparison of extraction methods for the rapid determination of essential oil content and composition of Basil. J. Am. Soc. Hort. Sci, 115 (3): 458-462.

Chatterjee N., Sukul, Laskar S. and Ghoshmajumdar S. (1982). Nematicidal Principles from Two Species of Lamiaceae, Ocimum sanctum and Ocimum basilicum, The J. of Nematol, 14:118-122.

Chiasson H., Belanger A. and Bostanian N. (2001). Acaricidal properties of Artemisia absinthium and Tanacetum vulgare (Asteraceae) essential oils obtained by three methods of extraction. J Econ Entomol., 94: 167–171.

Ching KK. (2004). Analysis of volatiles from Ocimum basilium, Wrightia religiosa and Michelia alba (B.Sc Thesis) University of Malaya, pp: 33-34.

Chogo B. and Crank G. (1981).Chemical composition and biological activity of the Tanzanian plant Ocimum suave. Journal of Natural Products, 44: 308–311.

Choi Y., Jeong HS. and Lee J. (2007). Antioxidant activity of methanolic extracts from some grains consumed in Korea. Food Chem., 103, 130-138.

Choudhary R., Kharya MD., Dixit VK. and Varma KC. (1989). Role of phytohormone on the cultivar and essential oil of Ocimum canum Sims. A potential source of citral. Indian Perf., 33: 224–227.

Clevenger JH. (1928). Apparatus for the determination of volatile oil. J Am Pharm Assoc, 17:346.

Collin GJ., Lord D., Allaire J. and Gagnon D. (1991). Huiles essentielles extraits ‘micro-ondes ‘. Applied Env. Microbiol, 47:229-233.

Colson M., Tetenyi P. and Perrin A. (1991). Characterization of foliar appendages and essential oils of Ocimum gratissimum L. leaves. Herba Hung, 30 (3): 5-14.

Cook RJ. (1984).The characterization and Identification of Crop cultivars by electrophoresis. Electrophoresis, 5: 59-72.

Cordeiro GM, Pan YB. and Henry R J. (2003). Sugarcane microsatellites for the assessment of genetic diversity in sugarcane germplasm. Plant Sci., 165, 181-189.

Cortez DAG., Cortez LER., Pessini GL., Doro DL., and Nakamur CV. (1998). Analysis of essential oil of alfavaca Ocimum gratissimum L. (Labeateae). Arq. Ciencias Saude UNIPAR, 2 (2):125-127.

Covello PS., Teoh KH., Polichuk DR., Reed DW. and Nowak G. (2007). Functional genomics and the biosynthesis of artemisinin. Photochemistry, 68:1864–1871.

Cowan MM. (1999). Plant products as antimicrobial agents. Clin Microbiol Rev., 12(4): 564-582.

Croteau R., Kutchan TM., and Lewis NG. (2000) Natural products (secondary metabolites). In, Buchanan B., Gruissem W., and Joneas R., (Eds.). Biochemistry and Molecular Biology of Plants. American Society of Plant Biologists, Rockville, MD, 1250–1268.

Cserháti T. (2010). Chromatography of aroma compounds and fragrances. Berlin, Heidelberg, Germany: Springer-Verlag. p 360.

Daferera DJ., Biogas BN. and Polissiou MG. (2000). GC-MS analysis of essential oils from some Greek aromatic plants and their fungitoxicity on Penicillium digitatum. J. Agric. Food Chem., 48: 2576–2581.

Damechki M., Sotiropoulou S., and Tsimidou M. (2001). Antioxidant and prooxidant. Factors in oregano and rosemary gourmet olive oils, Grasas Aceites, 52: 207-213.

Darlington CD. and Wylie AP.(1955).Chromosome atlas of flowering plants. Pub George Allen and unwind Ltd. London. pp 519.

Darrah H. (1980) The cultivated basils. Thomas Buckeye, Independence, MO.

Darrah HH. (1998).The Cultivated Basil, Buckeye Printing, Independence, MO.

Davidson PM. and Parish ME. (1989).Methods for testing the efficacy of food antimicrobials. Food Technology, 43:148-155.

Deans SG. and Ritchie G. (1987). Antibacterial properties of plant essential oils. International Journal of Food Microbiology, 5: 165-180.

De-Baggio T. and Belsinger S. (1996). Basil an herb lovers’s guide. Interweave Press, Loveland, Colo.

Delaquis PJ., Stanich K., Girare B. and Mazza G. (2002). Antimicrobial activity of individual and mixed fractions of dill, cilantro, coriander and eucalyptus essential oils. Int. J. Food Microbiol., 74: 101–109.

Demeke T., Adams R. and Chibbar R. (1992). Potential taxonomic use of random amplified polymorphic DNA (RAPD): a case study I Beassia; Theor. Appl. Genet., 84: 990-994.

Descalzo AM. and Sancho AM. (2008). A review of natural antioxidants and their effects on antioxidative status, odour and quality of fresh beef produced in Argentina. Meat Sci., 79, 423–436.

Despande RS. and Tipnis HP. (1977). Insecticidal activity of Ocimum basilicum L. Pesticides, 11: 1-12.

DeWitt TJ. and Scheiner SM. (2004). Phenotypic variation from single genotypes. In: De Witt TJ, Scheiner SM (eds). Phenotypic plasticity: functional and conceptual approaches. Oxford University Press, New York, pp 1–9.

Dey BB. and Choudhuri MA. (1983). Effect of leaf development stage on changes in essential oil of Ocimum sanctum L. Biochem. Physiol. Pflazen, 178: 331-335.

Donelian A., Carlson LHC., Lopes TJ. and Machado RAF. (2009). Comparison of extraction of patchouli (Pogostemon cablin) essential oil with supercritical CO2 and by steam distillation. The Journal of Supercritical Fluids, 48: 15-20.

Dorman HJD. and Deans SG. (2000). Antimicrobial agents from plants: antibacterial activity of plant volatile oils. Journal of Applied Microbiol., 88: 308–316.

Doyle JJ. and Doyle JI. (1987). A rapid DNA isolation procedure for small quantities of fresh leaf tissue. Phytochem. Bull., 19:11-15.

Dubey NK., Tiwari TN., Mandin D. and Chaumont A. (2000). Antifungal properties of Ocimum gratissimum essential oil (ethyl cinnamate chemotype). Fitoterapia, 7(15): 567-569.

Eberhart SA. and Russell WA. (1966). Stability parameters for comparing varieties. Crop Sci., 6: 36-40.

Egerton-Warburton LM., Ghisalberti EL. and Considine JA. (1998) Infraspecific variability in the volatile leaf oils of Chamelaucium uncinatum (Myrtaceae). Biochem Syst Ecol., 26:873–888.

Ekundayo O. (1986). Essential Oils VIII. Volatile Constituents of the Leaves of Ocimum viride. Planta Medica, 52 (3): 200-2002.

Elgayyar M., Draughon FA., Golden DA. and Mount JR.. (2001). Antimicrobial activity of essential oils from plants against selected pathogenic and saprophytic microorganisms. Journal of Food Protection, 64: 1019– 1024.

Elrod SL. and Stansfield WD. (2003). Genetics: Tata McGraw- Hill Publication, New Delhi. India, p. 500.



Emeka NG. and Chimaobi A. (2012). Chemical composition and variability among some Ocimum gratissinum accessions. Int. J Med. and Aromatic Pl, 2(3):460-467.

Erum H., Naeemullah M., Masood S. and Khan MI. (2011). Genetic variation in the living repository of Ocimum germplasm. Pakistan J. Agric. Res., 24 (1-4), 42-50.

Falconer DS. (1989). Introduction to quantitative genetics. Longman Sci. and Tech., London and New York.

Falconer DS. and Mackay TFC. (1996). Introduction to Quantitative Genetics. 4th edition, Longman, New York, P.132-133.

Fan J., Ding X. and Gu W. (2007). Radical-scavenging proanthocyanidins from sea buckthorn seed. Food Chem., 102, 168-177.

Finlay KW. and Wilkinson GN. (1963). Adaptation in a plant breeding programme. Aust J Res, 14:742-754.

Firouzi R., Azadbakht M. and Nabinedjad A. (1998). Anti-listerial activity of essential oils of some plants. Journal of Applied Animal Research, 14:75-80

Fleisher Z. and Fleisher A. (1992).Volatiles of Ocimum basilicum traditionally grown in Israel. Aromatic plants of the Holy Land and Sinai Part VIII. J. Ess. Oil Res.,4: 97-99.

Fouche G., Horak, MR. Wadiwala E. and Maharaj VJ. (2002). Investigation of thecommercial potential of Lippia javanica. Poster presented at the 36th Conventionof the South African Chemical Institute, 1-5 July, Port Elizabeth.

Fracaro F. and Echeverrigaray (2006). Genetic variability in Hesperozygis ringens Benth. (Lameaceae), an endangered Aromatic and Medicinal plant of Southhern Brazil. Biochem.Genet., 44:479-490

Freckleton RP., Harvey PH. and Pagel M. (2002). Phylogenetic analysis and comparative data: A test and review of evidence. Am. Nat.,160:712-726.

Freeman GH. and Perkins JM. (1970). Environmental and genotype-environmental components of variability. VIII. Relations between genotypes grown in different environments and measures of these environments. Heredity, 27:15-23.

Fridge (2004). Aroma chemicals derived from essential oils Part 4 [online]. National Economic Development and Labour Council (NEDLAC), South Africa. from:http://www.nedlac.org.za/research/fridge/aroma/part4/current.pdf

Fun CE., Svendsen AB., and Baerheim- SA. (1990). Composition of the essential oils of Ocimum basilicum var. canam and O. gratissimum L. grown on Arabia. Flavor & frag, 53:173-177.

Gang DR., Lavid N., Zubieta C., Chen F., BeuerleT., Lewinsohn E., Joseph PN., and Pichersky E. (2002). Characterization of Phenylpropene O-Methyltransferases from Sweet Basil. The Plant Cell, 14:505-519.

Gang DR., Wang JH., Dudareva N., Nam KH. Simon JE., Lewinsohn E. and Pichersky E. (2001). An investigation of the storage and biosynthesis of phenylpropenes in basil. Plant Physiol., 125: 539–555.

Ghosh GR. and Tulasi N. (1995). (N. O. Labiatac, Genus-Dcimum) New approaches to Medicine and Health (NANAH), 3:23–9.

Ghoulami S.,Oumzil H. and Rhajaoui M. (2001). Essaisde valorisation dugenre Mentha du Maroc. Extraction au micro-onde et activite antimicrobienne. Premier Congres de AMPEPM. Plantes Médicinales. Biologie et Sante, Kenitra, Morocco, 49.

Gill AO., Delaquis P., Russo P. and Holley RA. (2002). Evaluation of antilisterial action of cilantro oil on vacuum packed ham. Int. J. of Food Microbiol. 73: 83-92.

Goncalves PDS., Bortoletto N., Martins ALM., Costa RBD. and Gallo PB. (2003). Genotype-environment interaction and phenotypic stability for girth growth and rubber yield of Hevea clones in Sao Paulo State, Brazil. Gen. Mol. Bol., 26 (4).

Gottlieb (1982). Micromolecular Evolution, Systematics and Ecology, An Essay into a Novel Botanical Discipline. Springer-Verlag, Heidelberg. O. gratissimum L. grown in Cuba. J. Essent. Oil Res., 8: 139–141.

Graven EH., Webber L., Venter M. and Gardner JB. (1990). The development of Artemisia afra (Jacq.) as a new essential oil crop. J. of Essen. Oil Res., 2: 215-220.

Grayer R.J., Kite GC. and Veitch NC. (2002). Leaf flavonoid glycosides as chemo-systematic characters in Ocimum. Biochem Syst Ecol., 30 (4): 327-342.

Grayer RJ., Kite GC., Goldstone FJ., Bryan SE., Paton A. and Putievsky E. (1996). Infraspecific taxonomy and essential oil chemotypes in sweet basil Ocimum basilicum. Phytochemistry, 43:1033–1039.

Grieve M. (1992). A modern herbal. Tiger books international London, 85-86

Grossman J. (1993). Botanical pesticides in Africa, Integrated Pest Management Programme Practice. 15:1-9.

Guenther E. (1948). The Essential Oils. Vol. 2. Van Nostrand Co., New York.

Gunther E. (1952). The essential Oils, D. Van No strand Company, Inc., New York, London, Vol. 1, pp, 19, 50, 65.

Gupta SC. (1996). Variation in herbage yield, oil yield and major components of various Ocimum species / varieties (chemotypes) harvested at different stages of maturity. Journal of Essential Oil Research, 8: 275-279.

Gurbuz B., Ipek A., Basalma D., Sarihan EO., Sancak C. and Ozcan S. (2006). Effect of diurnal variability on essential oil composition of sweet basil (Ocimum basilicum L.). Asian J. Chem. 18(1): 285-288.

Hamid AA., Aiyelaagbe OO. and Usman LA. (2011). Essential oils: its Medicinal and pharmacological uses. International Journal of Current Research, 33(2):86-98.

Hammad I. (2008). Effect of Salicylic Acid on Genetic Variation of Ocimum basilicum (Basil) Based on ISSR, RAPD and Protein Markers. Global Journal of Molecular Sciences, 3(1):8-17.

Hammer KA., Carson CF. and Riley TV. (1999). Antimicrobial activity of essential oils and other plant extracts. Journal of Applied Microbiology, 86: 985-990.

Harborne JB. (1973). Phytochemical methods, London. Chapman and Hall, Ltd.49-188.

Harisaranraj R., Prasitha R., Babu S. and Suresh K. (2008). Analysis of Inter-Species Relationships of Ocimum Species Using RAPD Markers. Ethnobotanical Leaflets, 12: 609-13.

Harley MM., Paton A., Harley RM. and Cade PG. (1992). Pollen morphological studies in the tribe Ocimeae (Nepetoideae: Labiatae): Ocimum L-Grana, 31: 161-176.

Harley RM. and Hyewood CA.(1992). Chromosome numbers in tropical American Labeateae, p. 211-246 In: R.M.Harley and T.Reynolds (eds.).Advance in Labeateae Science. Royal Bot. Garden, London.

Hasegawa Y., Tajima K., Toi N. and Sugimura Y. (1997). Characteristic components found in the essential oil of Ocimum basilicum L. Fla. and Frag. J., 12:195-200.

Heberer T., Lahrssen-Wiederholt M., Schafft H., Abraham K., Pzyrembel H. and Henning KJ. (2007). Zero tolerance in food and animal feed-Are there any scientific alternatives? A European point of view on an international controversy. Toxicol. letters, 175:118-135.

Hedge IC. (1992). A global survey of biogeography of the Labeatae, p 7-17.In: RM Harley and T Reynolds (eds.). Advance in Labeatae science. Royal Bot. Garden London.

Hegnauer R. (1996). Chemotaxonomie der Pflanzen, vol-IV. Birkhauser, Basel, 313-314.

Heun M., Pregi SR., Klawan D., Castagna R., Accerbi M., Borghi B. and Salamini F. (1997). Site of Einkorn wheat domestications identified by DNA fingerprinting. Science, 278:1312-1314.

Holley RA. and Patel D. (2005). Improvement in shilflife and safety of perishable foods by plant essential oils and smoke antimicrobials. Food Microbiol, 22: 273- 292.

Holopainen M., Hiltunen R. and von Schantz M. (1987). A study on tansy chemotypes. Planta Medica, 53: 284-287.

Hopp R. and Mori K. (1993). Recent Developments in Flavour and Fragrance Chemistry. Proceedings of the 3rd International Haarmann and Reimer Symposium. VCH Verlagsgesell shaft Germany, pp: 123-128.

Hussain AI. (2009). Characterization and biological activities of essential oils of some species of lamiaceae. PhD Thesis, University of Agriculture, Faisalabad, (Pak).

Hussain AI., Anwar F., Sherazi STH. and Przybylski R. (2008). Chemical composition, an antioxidant and antimicrobial activity of basil (Ocimum basilicum) essential oils depends on seasonal variations. Food Chem., 108: 986-995.

Ibrahim MM., Aboud K.A and Hussein RM. (2011). Genetic variability and path coefficient analysis in sweet basil for oil yield and its components under organic agriculture conditions. Journal of American Science, 7(6):150-157.

Ibtisam H. (2008). Effect of Salicylic Acid on Genetic Variation of Ocimum basilicum (Basil) Based on ISSR, RAPD and Protein Markers (2008). Global J. of Mol. Sci., 3 (1): 08-17.


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