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REFERENCES
Chapter – V References
155Studies on development of medicinally important plants and their antimicrobial properties
Chapter 5
REFERENCES
Abbas M, Nadeem R, Zafar MN, Arshad M (2008) Biosorption of chromium
(III) and Chromium (VI) by untreated and pretreated Cassia fistula
biomass from aqueous Solutions, Water Air Soil Pollut 191: 139-148.
Aboaba OO, Smith SI, Olude FO (2006) Antibacterial effects of edible plant
extracts on E. coli 0157: H7, Pak J Nut 5: 325-327.
Agarwal DC, Banerjee AK, Kolala R R, Dhage AB, Kulkarni AV, Nalawade
SM, Hazra S, Krishnamurthy KV (1997) In vitro induction of multiple
shoots and plant regeneration in Gossypium hirsutum L, Plant Cell
Rep 16: 647-652.
Agarwal S (2007) Increased antioxidant activity in Cassia seedling under
UV-B radiation, Biologia Plantarum 51(1): 157-160.
Agarwal V, Sardar PR (2007) In vitro regeneration through somatic
embryogenesis and organogenesis using cotyledons of Cassia
angustifolia Vahl, In Vitro Cell Dev Biol Plant 43: 585-592.
Agarwal V, Sardar PR (2006) In vitro regeneration through leaflet and
cotyledon derived callus in Senna (Cassia angustifolia)-a medicinally
valuable drought resistant legume, Biol Plant 50: 118-122.
Agarwal A, Soni PL (1988) Structure of the oligosaccharides isolated from
Acacia catechu (Khail) gum polysaccharide, Indian J Chem 27B: 55-
58.
Ahmad I, Mehmood J, Mohammad F (1998) Screening of some Indian
medicinal plants for their antimicrobial properties, J Ethnopharmacol
Chapter – V References
156Studies on development of medicinally important plants and their antimicrobial properties
62: 83-193.
Ahmed I, Beg AJ (2001) Antimicrobial and phytochemical studies on 45
Indian medicinal plants for their antimicrobial properties, J
Ethnopharmacol 62: 83-193.
Ahmed AM, Khokhar I, Ahmad I, Kashmiri MK, Adnan A, Ahmed M (2006)
Study of antimicrobial activity and composition by GC-MS
spectroscopic analysis of the essential oil of Thymus serphyllum, J
food safety 5: 56-60.
Akinpelu DA, Onakoya TM (2006) Antimicrobial activities of medicinal
plants used in folklore remedies in south-western, African J Biotech
5(11): 1078-1081.
Al-Bayati FA, AL-Mola H F (2008) Antibacterial and antifungal activities of
different parts of Tribulus terrestris L. growing in Iraq, J Zhejiang
University Sci B 9(2): 154-159.
Albert Wu M, Wu June H, Liu Jia-Hua, Tanuja S (2004) Recognition profile
of Bauhinia purpurea agglutinin (BPA), Life Sci 74(14): 1763-1779.
Al-Fatimi M, Wurster M, Schroder G, Lindequist U (2010) In vitro
Antimicrobial, cytotoxic and radical scavenging activities and
chemical constituents of the endemic Thymus laevigatus (Vahl), Rec
Nat Prod 4: 49-63.
Ali M, Heaton A, Leach D (1997) Triterpene esters from australian Acacia, J
Nat Prod 60(11): 1150-1151.
Aliero AA, Afolayan AJ (2006) Antimicrobial activity of Solanum
tomentosum. African J Biotecnol 5(4): 369-372.
Chapter – V References
157Studies on development of medicinally important plants and their antimicrobial properties
Ammirato PV (1983) Embryogenesis In: Handbook of Plant Cell Culture.
Evans D, Sharp WR, Ammirato PV, Yamada Y (Eds) MacMillan, New
York pp 82-123.
Amor IL-B, Neffati A, Sgaier MB, Bhouri W, Boubaker J, Skandrani I,
Bouhlel I, Kilani S, Ammar RB, Chraief I, Hammami M, Ghoul M,
Chekir-Ghedira L, Ghedira K (2008) Antimicrobial Activity of
Essential oils Isolated from Phlomis crinita Cav. Ssp. Mauritanica
Munby, J Am Oil Chem Soc 85: 845-849.
Andronikashvili TG, Eprikashvili LG, Dzagania MA, Zautashvili (1999) The
effect of the nature of the carrier gas on the character of the gas
chromatographic separation of isomeric mixtures of benzene
derivatives, J Chromatogr 50: 1-2.
Aniket K, Pankaj P, Ankita K, Kanchanganga G, Abhay H (2008) Auxin-like
activity of extract from hypertrophied tissue of Acacia eburnea
infected with Ravenelia esculenta, Plant Cell Tiss Org Cult 94(1):
101-104.
Andrews JM (2001a) Determination of minimum inhibitory concentrations, J
Antimicrob Chemother 48(suppl. 1): 5-16.
Andrews JM (2001b) BSAC standardized disc susceptibility testing method.
J Antimicrob Chemother 48(suppl 1): 43-57.
Anjaneyulu C, Shyamkumar B, Giri CC (2004) Somatic embryogenesis from
callus cultures of Terminalia chebula Retz. an important medicinal
tree, Trees 18: 547-552.
Arnold SV, Sabala I, Bozhkov P, Dyachok J, Filonova L (2002)
Developmental pathways of somatic embryogenesis, Plant Cell Tiss
Chapter – V References
158Studies on development of medicinally important plants and their antimicrobial properties
Org Cult 69: 233-249.
Arora DS (1998) Antimicrobial activity of tea (Camellia sinensis), Antibiot
Chemother 2: 4-5.
Arora DS, Kaur GJ (2007) Antibacterial activity of some Indian medicinal
plants, Nat Med 61: 313-317.
Arora DS, Kaur J (1999) Antimicrobial activity of spices, Int J Antimicrobial
Agents 12: 257-262.
Aswal BS, Bhakuni DS, Goel AK, Kar K, Mehrotra BN (1984) Screening of
Indian plants for biological activity, Ind J Exp Biol 22: 487-491.
Azad AK, Ogiyama K, Sassa T (2001) Isolation of (+)-catechin and a new
polyphenolic compound in Bengal catechu, J Wood Sci 47: 406-409.
Azad MAK, Yokota S, Ohkubo T, Andoh Y, Yahara S, Yoshizawa N (2005) In
vitro regeneration of the medicinal woody plant Phellodendron
amurense Rupr through excised leaves, Plant Cell Tiss Org Cult 80:
43-50.
Azaz AD, Irtem HA, Kurkcuoglu M, Baser KH (2004) Composition and the
in vitro antimicrobial activities of the essential oils of some Thymus
species, Z Naturforsch C Biosci 59: 75-80.
Badji S, Marione Y, Ndiaye I, Merlin G, Danthu P, Nevill P, Colanna JP
(1993) In vitro propagation of the gum Arabic tree (Acacia Senegal L
Willd) 84: 45-48.
Baharin BS, Rahman KA, Karim MIA, Oyaizu T, Tanaka K, Tanaka Y Takagi
S (1998) Separation of palm carotene from crude palm oil by
Chapter – V References
159Studies on development of medicinally important plants and their antimicrobial properties
adsorption chromatography with a synthetic polymer adsorbent,
JAOCS 75(3): 45-52.
Bajpai D, Vanker PS (2008) Antifungal textile dyeing with Mahonia
napaulensis DC leaves extract based on its antifungal activity, Fibers
& Polymers 8(5): 487-494.
Bandureki RS, Cohen JD, Solvin JP, Kenecke DM (1995) Auxin biosynthesis
and metabolism In: Plant hormones Physiology, Biochemistry and
Molecular Biology, Kluver Academic Publisher, pp 39-65.
Barry AL (1991) Procedures and theoretical considerations for testing
antimicrobial agents in agar medium In: Lorian, V. (ed.) Antibiotics in
Laboratory Medicine 3rd edn. Baltimore, MA: Williams-Wilkins, pp
1-16.
Bartzatt R, Cirillo SLG, Cirillo JD (2007) Antibacterial activity of dipeptide
constructs of acetylsalicylic acid and nicotinic acid, Drug Deliv 14(2):
105-109.
Bathori M, Blunden G, Kalasz H (2000) Two dimensional thin-layer
chromatography of plant ecdysteroids, J Chromatogr 52: 11-12.
Bathori M, Szendrei K, Kalasz H, Lafont R, Girault JP (1988) Thin-layer
chromatography of ecdysteroids originated from Silene otites L, J
Chromatogr 25: 7.
Bauer AW, Kirby WMM, Sherris JC, Turck M (1996) Antibiotic
susceptibility testing by a standardized single disk method, Am J Clin
Pathol 45: 493-496.
Chapter – V References
160Studies on development of medicinally important plants and their antimicrobial properties
Beck SL, Dunlop R Staden JV (2000) Meristem culture of Acacia mearnsii, J
Plant Growth Regul 32: 49-58.
Beck SL, Dunlop R, Staden JV (1998) Micropropagation of Acacia mearnsii
from ex vitro material, J Plant growth regul 26:143-148.
Berezkin VG (2007) A new approach to the determination of relative
retention in thin-layer liquid chromatography, J Anal Chem 62(4):
366-368.
Bhakta T, Mukherjee PK, Saha K, Pal M, Saha BP (1998) Studies on
antitussive activity of Cassia fistula (Leguminosae) leaf extract,
Pharm Biol 36 (2): 140-143.
Bhatt ID, Dhar U (2000) Combined effect of cytokinins on multiple shoot
production from cotyledonary node explants of Bauhinia Vahlii, Plant
cell tiss Org cult 62: 79-83.
Bhattacharya S, Bhattacharya S (1997) Rapid multiplication of Jasminum
officinale L. by in vitro culture of nodal explants, Plant Cell Tiss Org
Cult 51: 57-60.
Bhawasar GL, Guru LV, Chadda AK (1965) Antibacterial activity of some
indigenous medicinal plants, Med Surg 5: 11-5.
Bhojwani SS, Razdan MK (1983) Somatic Embryogenesis In: Plant Tissue
Culture: Theory and Practice, Elsevier Science Publisher, Amsterdam,
pp 87-100.
Biggs DR, Lane GA (1978) Phytochemistry 17: 1683.
Chapter – V References
161Studies on development of medicinally important plants and their antimicrobial properties
Binto OA (1997) Phytochemical and Antimicrobial studies on Crescenta
cujete, Fitoterapia 68: 184-185.
Bisignino G, Sanogo R, Marino A, Aquino R, D’angelo V, Germano MP,
Pasquale R, Pizza C (1999) Antimicrobial activities of Mitracarpus
scaber extract and isolated constituents, Lett Appl Microbiol 30: 105-
108.
Body GP (1983) Infection caused by Pseudomonas aeruginosa, Rev Infect
Dis 5: 279.
Bon MI, Bonal D, Goh DK, Monteuuis O (1998) Influence of different
macronutrient solutions and growth regulators on micropropagation of
juvenile Acacia mangium and Paraserianthes falcataria explants,
Plant cell tiss org cult 53: 171-177.
Brehm-Stecher BF, Johnson EA (2003) Sensitization of Staphylococcus
aureus and Escherichia coli to antibiotics by the sesquiterpenoids
nerolidol, farnesol, bisabolol and apritone, Antimicrob Agents
Chemother 47: 3357-3360.
Breitmaier E (2007) Terpenes Flavors, Fragrances, Pharmaca, Pheromones, J
Nat Prod 70: 711-713.
Bridges JR (1987) Effects of terpenoids compounds on growth of symbiotic
fungi associated with the southern pine beetle, Phytopathology 77:
83-85.
Brown DCW, Thorpe TA (1995) Crop improvement through tissue culture.
World J Microbiol Biotech, 11(4): 409-415.
Chapter – V References
162Studies on development of medicinally important plants and their antimicrobial properties
Bullock GL, Sneiszko SF, Dunbar CE (1965) Characteristics and
identification of oxidative pseudomonad isolated from diseased fish, J
Gen Microb 38: 1-7.
Burt S (2004) Essential oils: Their antibacterial properties and potential
applications in foods, Int J Food Microbiol 94: 223-253.
Cappuccino JG, Sherman N (1999) Microbiology a laboratory manual, 4th
Edition Addision- Wiley Longman Inc, pp 24-60
Carvalho C, Fonseca MM (2006) Biotransformation of Terpenes, Biotech
Adv 24: 134-142.
Chen F, Ito H, Okabe F, Momose Y, Yamamura S, Ridtitid W,
Chaichantipyuth C, Leelasangaluk V, Tongrach P (1999) Effects of
barakol on aconitine-induced cardiac arrhythmias, Pharma Biol 37(2):
105-108.
Chopra I, Hodgson J, Metcalf B, Poste G (1997) The search for antibacterial
agents effective against bacteria resistant to multiple antibiotics,
Antimicrob Agents Chemother 41: 497-503.
Chow VYM, Toma RB, Jacob M, Ertl F, Reiboldt W, Shirzadi S (1998)
Evaluation of antifungal activities of cassia and garlic in white bread,
J Food service Sys 10: 213-222.
Chowdhury AR, Mandal S, Mitta B, Sharma S, Mukhopahyay S, Majumder
H K. (2002) Betulinic acid, a potent inhibitor of eukaryotic
topoisomerase I; identification of the inhibitory step, the major
functional group responsible and development of more potent
derivatives, Med Sci Monit 8: BR254-BR260.
Chapter – V References
163Studies on development of medicinally important plants and their antimicrobial properties
Chukwujekwu JC, Coombes PH, Mulholland DA, Staden JV (2006) Emodin,
an antibacterial anthraquinones from the roots of Cassia occidentalis,
South African J Bot 72(2): 295-297.
Cipak L, Grausova L, Miadokova E, Novotny L, Rauko P (2006) Dual
activity of triterpenoids: apoptotic versus antidifferentiation effects,
Arch Toxicol 80: 429-435.
Clinical and Laboratory Standards Institute CLSI (2005) Methods for dilution
antimicrobial susceptibility tests for bacteria that grow aerobically-
sixth edition: approved standard M7-A6 CLSI, Wayne, PA, USA.
Clinical and Laboratory Standards Institute CLSI (2008) Reference method
for broth dilution antifungal susceptibility testing of yeasts: approved
standard, 3rd edn. M27-A3 CLSI, Wayne, PA.
Cohen M.L (1992) Epidemology of drug resistance, implications for a post
antimicrobacteria, Science 257: 1050-1055.
Collin HA (2001) Secondary product formation in plant tissue cultures, Plant
Growth Regul 34: 119-134.
Compton EC (1994) Statistical methods suitable for the analysis of plant
tissue culture data, Plant Cell Tiss Org Cult 37: 217-242.
Copp BR (2003) Antimycobacterial natural products, Nat Prod Rep 20: 535-
557.
Cowan MM (1999) Plants products as antimicrobial agents, Clin Microbiol
Rev 12: 564-582.
Cristani MD Arrigo M, Mandalari G, Castelli F, Sarpietro MG, Micieli D,
Venuti V, Bisignano G, Saija A, Trombetta D (2007) Interaction of
Chapter – V References
164Studies on development of medicinally important plants and their antimicrobial properties
Four Monoterpenes Contained in Essential Oils with Model
Membranes: Implications for Their Antibacterial Activity, J Agric
Food Chem 55: 6300-6308.
Crowell PL (1997) Monoterpenes in breast cancer chemoprevention, Breast
Cancer Res Treat 46: 191-197.
Daferera DJ, Ziogas BN, Polissiou MG (2000) GC-MS analysis of essential
oils from Greek aromatic plants and their fungitoxicity on Penicillium
digitatum, J Agric Food Chem 48: 2576-2581.
Daher S, Gulagar FO (2008) Analysis of Phenolic and other Aromatic
Compounds in Honeys by Solid-Phase Microextraction Followed by
Gas Chromatography- Mass Spectrometry, J Agric Food Chem
56(14): 5775-5780.
Deba, Xuan TD, Yasuda M, Tawata S (2007) Chemical composition and
antioxidant, antibacterial and antifungal activities of the essential oils
from Bidens pilosa Linn. Var radiate, Food control 19(4): 346-352.
Debnath M, Malik CP, Bisen PS (2006) Micropropagation: A tool for the
production of high quality plant-based medicines, Curr Pharma
Biotech 7: 33-49.
Debnath Samir C (2007) A two-step procedure for in vitro multiplication of
cloudberry (Rubus chamaemorus L.) shoots using bioreactor, Plant
Cell Tiss Org Cult 88: 185-191.
Delazar A, Nazifi E, Movafeghi A, Nahar L, Nazemiyeh H, Moghadam SB,
Asnaashari S, Sarker SD (2009) GC-MS analysis of Ornithogalum
procerum, DARU 17 No.1.
Chapter – V References
165Studies on development of medicinally important plants and their antimicrobial properties
Denyer SP, Stewart GSAB (1998) Mechanisms of action of disinfectants, Int
Biodeterior Biodegrad 41: 261-268.
Dhar U, Upreti J (1999) In vitro regeneration of a mature leguminous liana
Bauhinia vahlii, Plant Cell Rep 18: 664-669.
Diaz E, Cortinas J, Ordonez S, Vega A, Coca J (2004) Selectivity of several
liquid phases for the separation of pine terpenes by gas
chromatography, J Chromatogr 60: 573-578.
Dikusar EA, Kozlov NG, Moiseichuk KL, Yuvchenko AP (2001) Terpene and
steroid alkynl peroxides, Russian J Org Chem 37(8): 1093-1098.
Djipa CD, Delmee M, Quetin-Leelereq P (2000) Antimicrobial activity of
bark extracts of Syzygium jambos L., J Ethnopharmacol 71: 307-313.
Dorman HJ, Deans SG (2000) Antimicrobial agents from plants,
Antibacterial activity of plant volatile oils, J Appl Microbiol 88: 308-
316.
Dornenburg H, Knorr D (1996) Generation of colors and flavors in plant cell
and tissue cultures, Crit Rev Plant Sci 15: 141-168.
Douglas GC, Mcnamara J (2000) Shoot Regeneration from Seedling
Explants of Acacia mangium Willd, In Vitro Cell Dev Biol Plant 36:
412-415.
Dudareva N, Andersson S, Orlova I, Gatto N, Reichelt M, Rhodes D, Boland
W, Gershenzon J (2005) The nonmevalonate pathway supports both
monoterpenes and sesquiterpene formation in snapdragon flowers,
Proc Nat Acad Sci USA 102: 933-938.
Chapter – V References
166Studies on development of medicinally important plants and their antimicrobial properties
Dulger B, Kirmizi S, Arslan H, Guleryuz G (2002) Antimicrobial activity of
three endemic Verbascum species, Pharma Biol 40(8): 587-589.
Durmaz H, Sajun E, Tarakei Z, Ozgokee F (2006) Antibacterial activities of
Allium vineale, Chaerophyllum macropodum and Prangos ferulaceae,
African J Biotechnol 5: 1795-1798.
Eftekhar F, Yousefzadi M, Tafakori V (2005) Antimicrobial activity of
Datura innoxia and Datura Stramonium, Fitoterapia 76: 118-120.
Elizabeth KM (2001) Antimicrobial activity of Allium sativum on some
pathogenic bacteria, Indian J Microbiol 41: 321-323.
Eldeen IMS, Staden J Van (2007) In vitro pharmacological investigation of
extracts from some trees used in Sudanese traditional medicine, South
African J Botany 73(3): 435-440.
Elizabeth KM (2005) Antimicrobial activity of Terminalia bellerica, J Clin
Biotechnol 20(2): 150-153.
Elkonin LA, Pakhomova NV (2000) Influence of nitrogen and phosphorus on
induction embryogenic callus of sorghum, Plant Cell Tiss Org Cult
61: 115-123.
Eloff JN (1998) Which extractant should be used for the screening and
isolation of antimicrobial compounds from plants, J Ethanopharmacol
60: 1-8.
Epstein K, Ludwig M (1993) Indole-3-butyric acid in plants: occurance,
synthesis, metabolism and transport, Plant Physiol 88: 382-387.
Chapter – V References
167Studies on development of medicinally important plants and their antimicrobial properties
Erturk O (2006) Antibacterial and antifungal activity of ethanolic extracts
from eleven spice plants, Biologia Bratislava 61(3): 275-278.
Fatimi MA, Wurster M, Schroder G, Lindequist U (2007) Antioxidant,
antimicrobial and cytotoxic activities of selected medicinal plants
from Yemen, J Ethnopharmacol 111(3): 657-666.
Fay MF (1994) In what situations is in vitro culture appropriate to plant
conservation, Biodiversity & Conservation 3: 176-183.
Fedtke I, Gotz F, Peschel A (2004) Bacterial evasion of innate host defences-
the Staphylococcus aureus lesson, Int J Med Microbiol 294: 189-194.
Fernand VE, Dinh DT, Washington SJ, Fakayode SO, Losso JN, Ravenswaay
ROV, Warner IM (2008) Determination of pharmacologically active
compounds in root extracts of Cassia alata L. by use of high
performance liquid chromatography, Talanta 74: 896-902.
Franklin CI, Trieu TN, Gonzales RA., Dixon RA (1991) Plant regeneration
from seedling explants of green bean (Phaseolus vulgaris L.) via
organogenesis, Plant Cell Tiss Org Cult 24: 199-206.
Fuchs V, Jaeger K, Wilhelm S, Rosenase F (2011) The BapF protein from
Pseudomonas aeruginosa is a β-peptidyl aminopeptidase, World J
Microbiol Biotechnol 27: 713-718.
Fulda S, Scaffidi C, Susin SA, Krammer PH, Kroemer G, Peters ME Debatin
KM (1998) Activation of mitochondrial apoptogenic factors by
betulinic acid, J Biol Chem 273: 33942-33948.
Chapter – V References
168Studies on development of medicinally important plants and their antimicrobial properties
Gajera HP, Patel SV, Golakiya BA (2005) Antioxidant properties of some
therapeutically active medicinal plants-an overview, JMAPS 27: 91-
100.
Gao S, Singh J (1998) In vitro percutaneous absorbtion enhancement of
lipophilic drug tamoxifen by terpenes, J Control Release 51: 193-199.
Garcia S, Alarcon G, Rodriguez C, Heredia N (2006) Extracts of Acacia
farnesiana and Artemisia ludoviciana inhibit growth, entrotoxin
production and adhesion of Vibrio cholerae, World J Microbiol 22:
669-674.
Gershenzon J (1994) Metabolic costs of terpenoid accumulation in higher
plants, J Chem Ecol 20: 1281-1328.
Gnan SO, Damello MP (1999) Inhibition of Staphylococcus aureus by
aqueous Goiaba extracts, J Ethnopharmacol 68(1-3): 103-108.
Gohlke RS, McLafferty FW (1993) Early gas chromatography/ mass
spectrometry- Accounts and perspective, J Amer Soc for mass
spectrometry 4(5): 367-371.
Gold SG, Moellering RC (1996) Antimicrobial drug resistance, N Eng J Med
335: 1445-1453.
Golkiewiez W, Gadzikowska M (1999) Isolation of some quaternary
alkaloids from the extract of roots of Chelidonium Majus L. by
column and thin- layer chromatography, J Chromatogr 50: 1-2.
Gorden RE, Haynes WC, Pang CHN (1973) The genus Bacillus Agric Hand
Book No.427, Washington DC, US Dept Agric.
Chapter – V References
169Studies on development of medicinally important plants and their antimicrobial properties
Goto T, Kondo T (1991) Angew Chem 103: 17.
Govil S, Gupta SC (1997) Commercialization of plant tissue culture in India,
Plant
cell tiss Org Cult 51: 65-73.
Govindarajan M, Jebanesan A, Pushpanathan T (2008) Larvicidal and
ovicidal activity of Cassia fistula Linn. Leaf extract against filarial
and malarial vector mosquitoes, Parasitol Res 102: 289-292.
Greenaway W, Whatley FR (1990) Analysis of phenolics of bud exudate of
Populous angustifolia by GC-MS, Phytochemistry 29: 2552-2554.
Grover JK, Yadav S, Vats V (2002) Medicinal plants of India with anti-
diabetic potential, J Ethnopharmacol 81: 81-100.
Guan-hui G, Jin-tian H (2008) Separation of liquefied product of Salix
psammophilia by column chromatography and structure analysis of its
components, For Stud China 10(4): 274-279.
Guo WW, Deng XX (1998) Somatic hybrid plantlets regeneration between
Citrus and its wild relative, Murraya paniculata via protoplast
electrofusion, Plant Cell Rep 18: 297-300
Guohua M (1998) Effects of cytokinins and auxins on cassava shoot
organogenesis and somatic embryogenesis from somatic embryo
explants, Plant Cell Tiss Org Cult 54: 1-7.
Gupta AK, Vidyapati TS Chauhan JS (1980) Chemical examination of the
stem of Bauhinia variegate, Planta Medica 38: 174-176.
Chapter – V References
170Studies on development of medicinally important plants and their antimicrobial properties
Gupta M, Mazumder UK, Kumar RS, Kumar TS (2004a) Antitumor activity
and antioxidant role of Bauhinia racemosa against Ehrlich ascites
carcinoma in Swiss albino mice, Acta Pharmacol 25(8):1070-1076.
Gupta M, Mazumder UK, Kumar RS, Kumar TS, Gomathi P, Kumar RS
(2004b) Antioxidant and hepatoprotective effects of Bauhinia
racemosa against paracetamol and carbon tetrachloride induced liver
damage in rats, Iranian J Pharmacol Therapeut 3: 12-20.
Gupta AK, Vidyapati TS, Chauhan JS (1979) 5-7 Dihydroxy flavonone-4’-o-
α-L-rhamnopyranosyl β-D-glucopyranoside of Bauhinia variegate, J
Chem 18: 85-86.
Habtemariam S (2000) Natural inhibitors of tumour necrosis factor-α
production, secretion and function, Planta Med 66: 303-313.
Hahlbrock K, Scheel D (1989) Ann Rev Plant Physiol Plant Mol Biol 40: 347
Halda T, Shiraishi A, Furuse S, Inoue Y, Hamashima H, Matsumoto Y,
Masuda K, Shimada J (2003) Inhibitory effects of terpenes on the
growth of Staphylococcus aureus, Nat Med 57: 64-67.
Hamburger M, Hostettmann K (1991) Bioactivity in plants: the link between
phytochemistry and medicine, Phytochemistry 30: 3864-3874.
Hammer KA, Carson CF, Riley TV (1999) Antimicrobial activity of essential
oils and other plant extracts, J Appl Microbiol 86: 985-990.
Hammer KA, Carson CF, Riley TV (2003) Antifungal activity of the
components of Melaleuca alternifolia (tea tree oil), J Appl Microbiol
95: 853-860.
Chapter – V References
171Studies on development of medicinally important plants and their antimicrobial properties
Hanari N, Yamamoto H, Kuroda K (2002) Comparison of terpenes in extracts
from the resin and the bark of the resinous stem canker of
Chamaecyparis obtuse and Thujopsis dolabrata var. hondae, J Wood
Sci 48: 56-63.
Hancock REW (1997) The bacterial outer membrane as drug barrier, Trends
Microbiol 5: 37-42.
Hanif MA, Nadeem R, Bhatti HN, Ahmad NR, Ansari TM (2007) Ni(II)
biosorption by Cassia fistula (Golden Shower) biomass, J Hazard Mat
B 139: 345-355.
Hart CA, Karriuri S (1998) Antimicrobial resistance in developing countries,
BMJ 317: 421-452.
Hart PH, Brand C, Carson CF, Riley TV, Prager RH, Finlay-Jones JJ (2000)
Terpinen-4-ol, the main component of the essential oil of Melaleuca
alternifolia (tea tree oil), suppresses inflammatory mediator
production by activated human monocytes, Inflamm Res 49: 619-626.
Hemlata, Kalidhar SB (1994) Chemical components of Cassia glauca lam, J
Pharm Sci 56(1): 33-34.
Henon G, Recseg K, Kovari K (2001) Wax analysis of vegetable oils using
liquid chromatography on a double-adsorbent layer of silica gel and
silver nitrate- impregnated silica gel, JAOCS 8: 4.
Hensen CE, Meins F, Aebi R (1987) Hormonal Regulation of Zeatin-riboside
accumulation by cultured tobacco cells, Planta 172: 520-525.
Herman EB (2004) Recent advances in plant tissue culture VII. Regeneration
and Micropropagation: Techniques, Media and Applications, Plant
Chapter – V References
172Studies on development of medicinally important plants and their antimicrobial properties
Cell Tiss Org Cult 76: 97-99.
Himejima M, Hobson Kenneth R, Otsuka T, Wood David L, Kubo I (2007)
Antimicrobial terpenes from oleoresin of ponderosa pine tree Pinus
ponderosa: A defence mechanism against microbial invasion, J Chem
Ecol 44: 1809-1818.
Hostettmann K, Marston A (1994) Search for new antifungal compounds
from higher plants, Pure Appl Chem 66: 2231-2234.
Hostettmann and Marston (2002) Twenty years of research into medicinal
plants: Results and perspectives, Phytochem Reviews 1: 275-285.
Hostettmann K, Wolfender JL, Rodriguiz S (1997) Planta Med 63: 2-10.
Huijbregts RP, De Kroon AI, De Kruijff B (2000) Topology of membrane
lipids in bacteria, Biochem Biophys Acta 1469: 43-61.
Ide Y, Watanabe Y, Ikeda H (1994) Tissue culture of Acacia auriculiformis
using the aseptically germinated seedlings, J Jpn For Soc 76: 576-583.
Inoue Y, Shiraishi A, Hada T, Hirose K, Hamashima H, Shimada J (2004)
The antibacterial effects of terpene alcohols on Staphylococcus aureus
and their mode of action, FEMS Microbiol Lett 237: 325-331.
Ireland H. Elyse, Clutterbuck A, Cloquet JP, Thurston MI, Williams PA,
Cronk QC Cronk, Dewey FM, Williams JHH (2004) The development
of immunoassays to identify and quantify species source of gum
arabic, J Agric Food Chem 52(26): 7804-7808.
Ivanova A, Delcheva I, Tsvetkova I, Kujumgiev A, Kostova I (2002) GC-MS
analysis and anti-microbial activity of acidic fractions obtained from
Chapter – V References
173Studies on development of medicinally important plants and their antimicrobial properties
Paeonia peregrina and Paeonia tenuifolia roots, Naturforsch 24: 624-
628.
Jeppesen PB, Gregersen S, Poulsen CR, Hermansen K (2000) Stevioside acts
directly on pancreatic ß cells to secrete insulin: actions independent of
cyclic adenosine monophosphate and adenosine triphoshate-sensitive
K+- channel activity, Metabolism 49: 208-214.
Kalasz H (2005) Spot and mobile-phase front anomalies in planer (thin-layer)
chromatography, J Chromatogr 62: S57-S62.
Kalinina KB, Litvinova LS (2001) Thin-layer chromatography of neutral
sugars as influenced by the nature of the cation of impregnating salt,
Russian J Appl Chem 74(8): 1343-1347.
Kaminek M, Motyka V, Vankova R (1997) Regulation of cytokinin content in
plant cells, Physiol Plantarum 101:689-700.
Kaminska T, Kaczor J, Rzeski W, Wejksza K, Kandefer-Szerszen M, Witek
M (2004) A comparison of the antiviral activity of three triterpenoids
isolated from Betula alba bark, Ann Univ Mariae Curie-Sklodowska
Sectio CL 9: 7-13.
Kato T, Frei B, Heinrich M, Sticher O (1996) Antibacterial hydroperoxides
from Xanthosoma robustum, Phytochemistry 41:1191-1195.
Kaur K, Arora S, Hawthorne ME, Kaur S, Kumar S, Mehta RG (2002) A
correalitive study on antimutagenic and chemopreventive activity of
Acacia auriculiformis A Cunn and Acacia nilotica (L.) willd, Drug
Chem toxicol 25(1): 39-64.
Chapter – V References
174Studies on development of medicinally important plants and their antimicrobial properties
Kaur K, Kant U (2000) Clonal propagation of Acacia catechu Willd. by shoot
tip culture, Plant Growth Regul 31: 143-145.
Kaur K, Verma B, Kant U (1998) Plants obtained from Khair tree (Acacia
catechu Willd.) using mature nodal segments, Plant Cell Rep 17: 427-
429.
Kaushik P (1985) Glimpses of medical botany in Atharveda-The Vedic Path,
48 (2): 64-67.
Kaushik P, Dhiman AK (2000) Medicinal Plants and Raw Drugs of India.
Bishen Singh Mahendra Pal Singh, New Cannaught Place, Dehradun,
pp 56-64.
Kaushik P, Goyal P (2008) In vitro evaluation of Datura innoxia (thorn-
apple) for potential antibacterial activity, Indian J Microbiol 48: 353-
357.
Kaushik P, Singh Y (2000) Antibacterial activity of extract of rhizome of
Curcuma longa (turmeric), J Indian Bot Soc 79: 191-192.
Kedzia B, Alkiewicz J, Han S (2000) The significance of tea tree oil in
phytotherapy, Post Fitoterapii, 2 Borgis online library.
Khalid S, Afza N, Rizvi HA, Badar Y (1996) Antibacterial and
photochemical studies on Dicoma tomentosa, Pak J Sci Indust Res 38:
464.
Khan MR, Olomoso AD, Barewai Y (2006) Antimicrobial activity of the
Maniltoa schefferi extracts, Fitoterapia 77: 324-326.
Chapter – V References
175Studies on development of medicinally important plants and their antimicrobial properties
Khan ZK (1997) In vitro and in vivo screening techniques for antimicrobial
and antifungal activity of medicinal plants, In International Workshop
on Medicinal Plants their Bioactivity Screening and Evaluation,
Lucknow India CDRI.
Khanam N, Khoo C, Khan AG (2000) Effects of cytokinin/auxin
combinations on organogenesis, shoot regeneration and tropane
alkaloid production in Duboisia myoporoides, Plant cell tiss org cult
62: 125-133.
Kharwar RN, Gond SK, Kumar A, Mishra A (2010) A comparative study of
endophytic and epiphytic fungal association with leaf of Eucalyptus
citriodora Hook., and their antimicrobial activity, World J Microbiol
Biotechnol 26: 1941-1948.
Kianbakht S, Jahaniani F (2003) Evaluation of antibacterial activity of
Tribulus terrestris L. growing in Iran, Iranian J Pharmacol Ther 2: 22-
24.
Kim IG, Kang SC, Kim KC, Choung ES, Zee OP (2008) Screening of
estrogenic and antiestrogenic activities from medicinal plants,
Environmental Toxicol Pharmacol 25(1): 75-82.
Kishimoto A, Ushida K, Philips GO, Takashi O, Sasaki Y (2006)
Identification of intestinal bacteria responsible for fermentation of
gum arabic in pig model, Curr Microbiol 53:173-177.
Kittakoop P, Kirtikara K, Tanticharoen M, Thebtaranonth Y (2000)
Antimalarial preracemosols A and B, possible biogenetic precursors of
racemosol from Bauhinia malabarica Roxb., Phytochemistry 55(4):
349-352.
Chapter – V References
176Studies on development of medicinally important plants and their antimicrobial properties
Kleczkowski K, Schell J (1995) Phytohormone conjugates: nature and
fuction, Crit Rev Plant Sci 14: 283-298.
Koh S-C, Park Y-I, Koo Y-M, So J-S (2000) Plant terpenes and legnin as
natural cosubstrates in biodegradation of polyclorinated biphenyls
(PCBs) and polycyclic aromatic hydrocarbons (PAHs), Biotechnol
Bioprocess Eng 5: 164-168.
Kohlert C, Rensen V, Marz R, Schindler G, Graefe EU, Veit M (2000)
Bioavailability and pharmacokinetics of natural volatile terpenes in
animals and humans, Planta Med 66: 495-505.
Kris-Etherton PM, Hecker KD, Bonanome A, Coval SM, Binkoski AE,
Hilpert KF, Griel AE Etherton TD (2002) Bioactive compounds in
foods: their role in the prevention of cardiovascular disease and
cancer, Am J Med 113: 71S-88S.
Kuete V, Tangmouo JG, Beng V Penlap, Ngounou FN, Lontsi D (2006)
Antimicrobial activity of the methanolic extract from the stem bark of
tridesmostemon omphalocarpoides (Sapotaceae), J Ethnopharmacol
104(1-2): 5-11.
Kumar A (1992) Micropropagation of a mature leguminous tree-Bauhinia
purpurea, Plant cell tiss org cult 31(3): 257-259.
Kumar R, Iiyas M, Parveen M, Shafiullah (2006) A new chromone from
Cassia nodusa, J Asian Nat Prod Res 8(7): 595-598.
Kumar RS, Sivakumar T, Sunderam RS, Gupta M, Mazumdar UK, Gomathi
P, Rajeshwar Y, Saravanan S, Kumar MS, Murugesh K, Kumar K A.
(2005) Antioxidant and antimicrobial activities of Bauhinia racemosa
L. stem bark, Brazilian J Med Biol Res 38(7): 1015-1024.
Chapter – V References
177Studies on development of medicinally important plants and their antimicrobial properties
Kunii Y, Otsuka M, Kashino S (1996) 4-hydroxypipecolica acid and
pipecolic acid in Acacia Species: their determination by high-
performance liquid chromatography, its application to leguminous
plants, and configuration of 4-hydroxypipecolic Acid, J Agric Food
Chem 44(2): 483-487.
Kusui K, Yamamoto K, Konami Y, Osawa T (1991) c-DNA Cloning and
Expression of Bauhinia purpurea Lectin, The J Biochem 109(6): 899-
903.
Lai Y-C, Lee W-C (1994) The initiation of callus culture of Michelia
champaca for essential oil production, Biotechnol Lett 16(1): 85-88.
Lakshmanan P, Taji A (2000) Somatic embryogenesis in leguminous plants,
Plant Biol 2: 136-148.
Lambert RJW, Skandamis PN, Coote PJ, Nychas GJA. (2001) A study of the
minimum inhibitory concentration and mode of action of oregano
essential oil, thymol and carvacrol, J Appl Microbiol 91: 453-462.
Landa P, Marsik P, Vanek T, Rada V, Kokoska L (2006) In vitro anti-
microbial activity of extracts from the callus cultures of some Nigella
species, Biologia Bratislava 61(3): 285-288.
Lee SO, Choi SZ, Choi SU, Kim GH, Kim YC, Lee KR (2006) Cytotoxic
Terpenes Hydroperoxides from the Aerial Parts of Aster
spathulifolius, Arch Pharm Res 29(10): 845-848.
Lee Y, Lee DE, Lee S, Kim SK, Lee WS, Kim SH, Kim MW (2011)
Influence of auxins, cytokinins, and nitrogen on production of rutin
from callus and adventitious roots of the white mulberry tree (Morus
Chapter – V References
178Studies on development of medicinally important plants and their antimicrobial properties
alba L.), Plant Cell Tiss Organ Cult 105: 9-19.
Leifert C, Cassells AC (2001) Microbial hazards in plant tissue and cell
cultures, In vitro cell dev biol Planta 37: 133-138.
Leifert C, Woodward S (1998) Laboratory contamination management: the
requirement for microbiological quality assurance, Plant Cell Tiss Org
Cult 52: 83-88.
Lerdau M, Litvak M, Monson R (1994) Plant chemical defense:
monoterpenes and growth-differentiation balance hypothesis, Trends
Ecol Evol 9: 58-61.
Letham DS (1963) Zeatin, a factor inducing cell division isolated from Zea
mays, Life Sci 2: 569-579.
Letham DS (1974) Regulators of cell division in plant tissues. The cytokinins
of coconut milk, Physiol Plant 32: 66-70
Levine MM (1987) Escherichia coli that causes diarrhoea, enterotoxigenic,
enteropathogenic, enteroinvasive, enterochaemorthage and
enteroadherent, J Infec Dis 54: 155-377.
Li J, Ou-Li TM, Raba R, Amundson RG, Last RG, Last RL (1993) Plant cell
cell Tiss Org cult 28(1): 171
Liao H, Ren W, Kang Z, Jiang J, Zhao X, Du L (2006) A trypsin inhibitor
from Cassia obtusifolia seeds: isolation, characterization and activity
against Pieris rapae, Biotechnol Lett.
Lim TY, Lim YY, Yule CM (2008) Evaluation of antioxidant, antibacterial
and anti-tyrosinase activities of four Macaranga species, Food Chem
Chapter – V References
179Studies on development of medicinally important plants and their antimicrobial properties
114(2): 594-599.
Liu J (1995) Pharmocology of oleanolic acid and ursolic acid, J
Ethnopharmacol 49: 57-68.
Liu J (2005) Oleanolic acid and ursolic acid: research perspectives, J
Ethnopharmacol 100: 92-94.
Livermore DM (2002) Multiple mechanisms of antimicrobial resistance in
Pseudomonas aeruginosa: our worst nightmare, Clin Infect Dis 34:
634-640.
Lopez Mayda I, Pettis Jeffery S, Smith IB,Chu Pak-Sin (2008) Multiclass
determination and confirmation of antibiotic residues in honey using
LC-MS/MS, J Agricul Food Chem 56(5): 1553-1559.
Lourens ACU, Reddy D, Baser KHC, Viljoen AM, Van VSF (2004) In vitro
biological activity and essential oil composition of four indigenous
South African Helichrysum species, J Ethanopharmacol 9: 253-258.
Lowe KC, Davey MR, Power JB (1996) Plant tissue culture: Past, present
and future, Plant Tiss Cult Biotech 2: 175-186.
Loza-Tavera H (1999) Monoterpenes in essential oils. Biosynthesis and
properties, Adv Exp Med Biol 464: 49-62.
Mahida Y, Mohan JSS (2006) Screening of Indian plant extracts for
antimicrobial activity, Pharma Biol 44: 627-631.
Maji MD, Chattopadhyay S, Kumar P, Saratchandra B (2005) In vitro
screening of some plant extracts against fungal pathogens of mulberry
(Morus spp.), Arch Phytopathol Plant Pro 38(3): 157-164.
Chapter – V References
180Studies on development of medicinally important plants and their antimicrobial properties
Mandal P, Babu SPS, Mandal NC (2005) The antimicrobial activity of
saponins from Acacia auriculiformis, Fitoterapia 76(5): 462-465.
Mann CM, Cox SD, Markham JL (2000) The outer membrane of
Pseudomonas aeruginosa NCTC6749 contributes to its tolerance to
the essential oil of Melaleuca alternifolia (tea tree oil), Lett Appl
Microbiol 30: 294-297.
Marino M, Bersani C, Comi G (1999) Antimicrobial activity of the essential
oils of Thymus vulgaris L. measured using a bioimpedometric
method, J Food Prot 62: 1017-1023.
Martin SM (1980) In EJ Staba (ed.) Plant tissue Culture as a source of
Biochemicals, CRC Press Boca Raton Florida pp 49-166.
Marston A, Maillard M Hostettmann K (1997) GIT laboratory journal no 1,
36-39.
Mathur J, Mukunthakumar S (1992) Micropropagation of Bauhinia variegata
and Parkinsonia aculeate from nodal explants of mature trees, Plant
cell Tiss Org cult 28 (1).
Meyer BN, Putanam JE, Jacobsen LB, Nichols DE, Mc Laughin JL (1982)
Brine Shrimp a convenient general bioassay for active plant
constituents, Planta Med 45: 31.
Micetich Ronald G, Raap R, Howard J, Pushkas I (1972) Antibacterial
activity of 6-(5-membered heteroarylacetamido) penicillanic acids, J
med Chem 15 (3): 333-335.
Miller CO (1961) Kinetin related compounds in plant growth, Ann Rev Plant
Physiol 12: 395-408.
Chapter – V References
181Studies on development of medicinally important plants and their antimicrobial properties
Miller CO, Skoog F, Okumura FS, Von Saltza MH, Strong FM (1955)
Structure and synthesis of Kinetin, J Am Chem Soc 77: 2662-2663.
Millvi C (1965) Evidence for the natural occurance of zeatin and derivatives:
compounds from maize which promote cell division, Proc Nat Acad
Sci USA 54: 1052-1058.
Mittal A, Agarwal R, Gupta SC (1989) In vitro development of plantlets from
axillary buds of Acacia auriculiformis- a leguminous tree, Plant Cell
Tiss Org Cult 19: 65-70.
Monteriro Jose Luiz F, Veloso Claudia O (2004) Catalytic conversion of
terpenes into fine chemicals, Topics in Catalysis 27: 1-4.
Monteuuis O, Bon M-C (2000) Influence of auxins and darkness on in vitro
rooting of micropropagated shoots from mature and juvenile Acacia
mangium, Plant Cell Tiss Org Cult 63: 173-177.
Mooney HA, Emboden WA (1968) The Relationship of Terpene
Composition, morphology, and distribution of populations of Bursera
microphylla (Burseraceae), Brittonia 20: 44-51.
Moore TC (1994) In: Biochemistry and physiology of plant hormones, 2nd
edition Narosa Publishing House, pp 28-61.
Morrissey JP, Osbourn AE (1999) Fungal resistance to plant antibiotics as a
mechanism of pathogenesis, Microbiol Mol Biol Reviews 63: 708-
724.
Mothana RA, Lindequist U (2005) Antimicrobial activity of some medicinal
plants of the island Soqotra, J Ethanopharmacol 96(1-2): 177-181.
Chapter – V References
182Studies on development of medicinally important plants and their antimicrobial properties
Murashige T (1974) Plant propagation through tissue cultures, Ann Rev Plant
Physiol 25: 135-166.
Mylotte JM, McDermott C, Spooner J (1987) Prospective study of 114
consecutive episodes of Staphylococcus aureus bacteria, Rev Infec
Dis 9: 981.
Nakatani N (1994) Antioxidative and antimicrobial constituents of herbs and
spices In: CHARALAMBOUS, G. (ed.) Spices, Herbs, and Edible
Fungi, Elsevier Amsterdam, pp 251-272.
Nanda Rashmi M, Rout GR (2003) In vitro somatic embryogenesis and plant
regeneration in Acacia Arabica, Plant Cell Tiss Org Cult 73: 131-135.
Nandwani D (1995) In vitro micropropagation of a tree legume adapted to
acrid lands: Acacia tortilis sub-sp raddiana, Ann Des Sci Forestieres
52: 183-189.
Neto M Maia, Neto M Andrade, Filho R Braz, Lima MA.S, Silveira ER
(2008) Flavonoids and alkaloids from leaves of Bauhinia ungulata L.,
Biochem Syst Ecol 36(3): 227-229.
Niedermeyer TH, Lindequist U, Mentel R, Gordes D, Schmidt E, Thurow K,
Lalk M (2005) Antiviral terpenoids constituents of Ganoderma
pfeifferi, J Nat Prod 68: 1728-1731.
Niederwieser JG, Staden JV (1990) The relationship between genotype, tissue
age and endogenous cytokinin level on adventitious bud formation on
leaves of Lachenalia, Plant Cell Tiss Org cult 22: 223-228.
Nostro A, Germano MP, Angelo VD, Marino A, Canatelli MA. (2000)
Chapter – V References
183Studies on development of medicinally important plants and their antimicrobial properties
Extraction methods and bioautography for evaluation of medicinal
plant antimicrobial activity, Lett Appl Microbiol 30: 397-384.
Nwafor PA, Okwuasaba FK (2001) Contraceptive and Estrogenic effect of a
methanol extract of Cassia nigricans leaves in experimental animals,
Pharma Biol 39(6): 424-428.
Obiageri OO, Larry CO, Florence DT, Abayomi TO, Joseph IO, Uford SI,
Edith OA, Colin WW (2005) Antiplasmodial principle from Cassia
nigricans, Pharma Biol 42(8): 626-628.
Ojo OO, Ajayi AO, Anibijuwon II (2007) Antibacterial potency of methanol
extracts of lower plants, J Zhejiang University Science B 8(3): 189-
191.
Olukoya DK, Idiaka N, Odugbemi A (2003) Antibacterial activities of some
plants in Nigeria, J Ethanopharm 4:15-22.
Ozturk S, Ercisli N (2006) Chemical composition and in vitro antibacterial
activity of Seseli libanotis, World J Microbiol Biotech 22: 261-265.
Pacheco G, Gagliardi RF, Carneiro LA, Callado CH, Valls JFM, Mansur E
(2007) The role of BAP in somatic embryogenesis induction from
seed explants of Arachis species from sections erectoides and
procumbentes, Plant Cell Tiss Org Cult 88:121-126.
Paek KY, Chakrabarty D, Hahn EJ (2005) Application of bioreactor systems
for large scale production of horticultural and medicinal plants, Plant
Cell Tiss Org Cult 81: 287-300.
Parekh J, Jadeja D, Chanda S (2005) Efficacy of aqueous and methanol
extracts of some medicinal plants for potential antibacterial activity,
Chapter – V References
184Studies on development of medicinally important plants and their antimicrobial properties
Turk J Biol 29: 203-210.
Pari L, Latha M (2002) Antidiabetic activity of Cassia auriculata flowers:
Effect on lipid peroxidation in streptozotocin diabetes rats, Pharm
Biol 40 (7): 512-517.
Parveen M, Kamrul H, Junko T, Yoshinori M, Emiko K, Osamu K, Hitoshi I.
(2004) Response of Saccharomyces cerevisiae to a monoterpenes:
evaluation of antifungal potential by DNA microarray analysis, J
Antimicrob Chemother 54: 46-55.
Patocka J (2003) Biologically active pentacyclic triterpenes and their current
medicine signification, J Appl Biomed 1: 7-12.
Paulo L, Ferreira S, Gallardo E, Queiroz JA, Domingues F (2010)
Antimicrobial activity and effects of resveratrol on human pathogenic
bacteria, World J Microbiol Biotechnol 26: 1533-1538.
Peana AT, D’Aquila PS, Chessa ML, Moretti MD, Serra G, Pippia P (2003) (-
)- linalool produces antinociception in two experimental models of
pain, Eur J Pharmacol 460: 37-41.
Pepeljnjak S, Stanic G, Potocki P (1999) Antimicrobial activity of the
ethanolic extract of Satureja Montana ssp. Montana, Acta
Pharmaceutica 19: 65-69.
Phillips MA, Croteau RB (1999) Resin-based defences in conifers, Trends
Plant Sci 4: 184-190.
Pinto-da-Silva LH, Camurate M, Costa KA, Oliveira SM, Da Cunha-e-Silva
NL, Saraiva EM (2002) Leishmania (Viannia) braziliensis metacyclic
promastigotes purified using Bauhinia purpurea lectin is complement
Chapter – V References
185Studies on development of medicinally important plants and their antimicrobial properties
resistant and highly infective for macrophages in vitro and hamsters in
vivo, Int J parasitology 32(11): 1371-1377.
Pitta-Alvarez SI, Medina-Bolivar F, Alvarez MA, Scambatto AA, Marconi
PL (2008) In vitro shoot culture and antimicrobial activity of Berberis
buxifolia Lam., In Vitro Cell Dev Biol-Plant 56: 78-80.
Pokhrel NR, Adhikari RP, Baral MP (2002) In vitro evaluation of the
antimicrobial activity of Bauhinia variegata, locally known as
koiralo. World J Microbiol Biotech 18: 69-71.
Prasad MNV, Greger M, Landberg T (2001) Acacia nilotica L. bark removes
toxic elements from solution: Corroboration from toxicity bioassay
using Salix viminalis L. in hydroponic system, Int J Phytoremed 3(3):
289-300.
Predieri S, Rapparini F (2007) Terpene emission in tissue culture, Plant Cell
Tiss Org Cult 91: 87-95.
Ragasa CY, Hofilena J, Rideout JA (2004) Secondary metabolite from
Bauhinia purpurea, Ind J Microbiol 133: 1.
Rajkapoor B, Jayakar B, Murugesh N (2003) Antitumour activity of Bauhinia
variegata against Ehrlich ascites carcinoma induced mice, Pharma
Biol 41(8): 604-607.
Rajkumar S, Jebanesan A (2009) Larvicidal and oviposition activity of
Cassia obtusifolia Linn (Family: Leguminosae) leaf extract against
malarial vector, Anopheles stephensi Liston (Diptera: Culicidae),
Parasitol Res 104: 337-340.
Chapter – V References
186Studies on development of medicinally important plants and their antimicrobial properties
Ranganathan S, Balajee SAM (2000) Anti-Cryptococcus activity of
combination of extracts of Cassia alata and Ocimum sanctum,
Mycoses 43(7-8): 299-301.
Rastogi P, Mehrotra BN (1999) Compendium of Indian Medicinal Plants,
Drug research perspective, CDRI Lucknow and NISCOM, New Delhi
2: 1-859.
Rathore HS, Khan HA (1987) Characterization of Barium Sulphate as a TLC
material for the separation of plant carboxylic acids, J Chromatogr 23:
6.
Razdan MK (1993) Media-Introduction and Techniques In: An Introduction
to Plant Tissue Culture, Primlani R, Oxford, IBH publisher, New
Delhi, pp 27-38.
Reddy BS, Wang CX, Samaha H, Lubet R, Steele VE, Kelloff GJ, Rao CV
(1997) Chemoprevention of colon carcinogenesis by dietary perillyl
alcohol, Cancer Res 57: 420-425.
Rhodes MJC, Parr AJ, Giulietti A, Aird ELH (1994) Influence of exogenous
hormone on the growth and secondary metabolite formation in
transformed root cultures, Plant Cell Tiss Org Cult 38: 143-151.
Rios MY (2005) Terpenes, Coumarins, and Flavones, Chem Nat Comp 41: 3.
Robledo S, Osorio E, Munoz D, Jaramillo LM, Restrepo A, Arango G, Velez I
(2005) In vitro and in vivo cytoxicities and antilesishmanial activities
of thymol and hemisynthetic derivatives, Antimicrob Agents
Chemother 49: 1652-1655.
Chapter – V References
187Studies on development of medicinally important plants and their antimicrobial properties
Rout GR, Samantary S, Das P (1995) Somatic embryogenesis and plant
regeneration from callus culture of Acacia catechu- a multipurpose
leguminous tree, Plant cell Tiss Org Cult 42: 283-285.
Roy S, Rao K, Bhuvaneswari C, Giri A, Mangamoori LN (2010)
Phytochemical analysis of Andrographis paniculata extract and its
antimicrobial activity, World J Mirobiol Biotechnol 26: 85-91.
Runyoro DKB, Matee MIN, Ngassapa OD, Joseph CC, Mbwambo ZH
(2006) Screening of Tanzanian medicinal plants for anti-candida
activity, BMC Complem Alternat Med 6(11): 1186-1472.
Sa Roberto A, Gomes FS, Napoleao TH, Santos NDL, Melo CML, Gusmao
NB, Coelho LCBB, Paiva Patricia MG, Bieber Lothar W (2007)
Antibacterial and antifungal activities of Myracrodruon urundeuva
heartwood, Wood Sci Technol 24: 54-56.
Sampietro AR, Isla MI, Quiroga EN, Vattuone MA (1997) The importance of
photochemical studies in the formation of the pharmacist, Acta Farma
Bonaer 16: 245-249.
Samappito S, Page J, Schmidt J, Deeknamkul W, Kutchan TN (2002)
Molecular characterization of root-specific chalcone synthases from
Cassia alata, Planta 34: 14-16
Samie A, Obi CL, Bessong PO, Namrita L (2005) Activity profiles of
fourteen selected medicinal plants from rural Venda communities in
South Africa against fifteen clinical bacterial species, African J
Biotech 4(12): 1443-1451.
Sanehee NR, Cortez DAG, Schiavini MS, Nakamura CV, Filho BP (2005) An
evaluation of antibacterial activities of Psidium guajava (L), Brazilian
Chapter – V References
188Studies on development of medicinally important plants and their antimicrobial properties
Arch Biol Technol 48: 429-436.
Santos FA, Rao VS (2000) Antiinflammatory and antinociceptive effects of 1,
8-cineole a terpenoid oxide present in many plant essential oils,
Phytother Res 14: 240-244
Sarkar AB, Akagi T, Yoshino T, Fujiwara K, Murakami I (1993) Bauhinia
purpurea lectin (BPA) binding spectra in hyperplastic human tonsil
and in peripheral blood: immonohistochemical, immunoelectron
microscopic and flow cytometric analysis, J Histochem Cytochem
41(6): 67-72.
Sarkar AB, Akagi T, Jeon HJ, Miyake K, Murakami I, Yoshino T, Takahashi
K, Nose S (1992) Bauhinia purpurea- a new paraffin section marker
for Reed-Sternberg cells of Hodgkin’s disease. A comparison with
Liu-M1 (CD15), LN2 (CD74), peanut agglutinin and Ber-H2 (CD30),
Am J pathology 141: 19-23.
Sato M, Fujiwara S, Tsuchiya H, Fuji T, Linuma M, Tosa H, Ohkawa Y
(1996) Flavones with antibacterial activity against cariogenic bacteria.
J Ethanopharmacol 54: 171-176.
Saxena DK, Saxena AA (2002) Role of Plant Tissue Culture in Biodiversity
Conservation and Economic Development In: Gyanodaya Prakashen.
Nainity, India, pp 605-621.
Scazzocchio F, Cometa MF, Tomassini L, Palmery M (2001) Antibacterial
activity of Hydrastis Canadensis extract and its major isolated
alkaloids, Planta Med 67: 561-563
Silva CR, Monterio MR, Rocha HM, Ribeiro AF, Caldeira-de-Araujo A,
Leitao AC, Bezerra RJAC, Padula M (2008) A new chromone from
Chapter – V References
189Studies on development of medicinally important plants and their antimicrobial properties
Cassia nodusa. Assessment of antimutagenic and genotoxic potential
of senna (Cassia angustifolia Vahl.) aqueous extract using in vitro
assays, Toxicol in vitro 22 (1): 212-218.
Singh AK, Chand S, Pattnaik S, Chand PK (2002) Adentitious shoot
organogenesis and plant regeneration from cotyledons of Dalbergia
sissoo Roxb a timber yielding tree legume, Plant Cell Tiss Org Cult
68: 203-209.
Sonia, Jaiwal PK, Gulati A, Dahiya S (1998) Direct organogenesis in
hypocotyls cultures of Tamarindus indica, Biologia Plantarum, 41(3):
331-337.
Seigler DS (2003) Phytochemistry of Acacia-sensu lato, Biochem Syst Ecol
31(8): 845-873.
Sharma P, Dayal R, Ayyar KS (1997) Chemical constituents of Acacia
catechu leaves, J Indian Chem Soc 74: 60.
Sharma P, Dayal R, Ayyar KS (1999) Acylglucosterol from Acacia catechu, J
Med Aromat Plant Sci 21: 1002-1005.
Sharma N, Trikha P, Athar M, Raisuddin S (2000) In vitro inhibition of
carcinogen-induced mutagenicity by Cassia occidentalis and Emblica
officinalis, Drug Chem Toxicol 23 (3): 477-484.
Shen D, Wu Q, Wang M, Yang Y, Lavoie Edmond J, Simon James E (2006)
Determination of the predominant catechins in Acacia catechu by
liquid Chromatography/Electrospray Ionization- Mass Spectrometry, J
Agric Food Chem 54(9): 3219-3224.
Chapter – V References
190Studies on development of medicinally important plants and their antimicrobial properties
Singh G, Maurya S, De Lampasona MP, Catalan C (2005) Chemical
constituents, antimicrobial investigations and antioxidant potentials of
Anethum graveolens L. essential oil and acetone extract: Part 52, J
Food Sci 70: 208-215.
Singhal PC, Joshi LD (1984) Role of gum Arabica and gum Catechu in
glycaemia and cholesterolemia, Curr Sci 53: 91.
Smith P, Douglas I, McMurray J, Carroll C (2009) A rapid method of
improving the criteria being used to interpret disc diffusion
antimicrobial susceptibility test data for bacteria associated with fish
diseases, Aquaculture 290(1-2): 172-178.
Sottomayor M, Cardoso IL, Pereira LG, Barcelo AR (2004) Peroxidase and
the biosynthesis of terpenoids indole alkaloids in the medicinal plant
Catharanthus roseus (L.), G Don 3: 159-171.
Skoog F, Miller CO (1957) Chemical regulation of growth and organ
formation in plant tissue cultured in vitro, Symp Soc Exp Biol 11:
118-131.
Skoog F, Tsui C (1951) Growth substances and the formation of buds in plant
tissues. In F. Skoog (ed.), Plant Growth Substances, Univ Wisconsin
Press, Madison, Wisconsin, pp 263-285.
Stafford HA (1990) Flavonoid metabolism, CRC, Boca Raton, FL, USA pp
56-78.
Strain HH, Sherma J (1967) Michael Tswett’s contributions to sixty years of
chromatography, J Chem Educ 44(4): 235.
Chapter – V References
191Studies on development of medicinally important plants and their antimicrobial properties
Sultana B, Anwar F, Przybylski R (2007) Antioxidant activity of Phenolic
components present in barks of Azadiracta indica, Terminalia arjuna,
Acacia nilotica and Eugenia jambolana Lam. Trees, Food Chemistry
104 (3): 1106-1114.
Tadeg H, Mohammed E, Asres K, Gebre-Mariam T (2005) Antibacterial
activities of some selected traditional Ethiopian medicinal plants used
in the treatment of skin disorders, J Ethnopharmacol 100: 168-175.
Thesis N, Lerdau M (2003) The evolution of function in plant secondary
metabolites, Int J Plant Sci 164: S94-S103.
Thongson C, Davidson PM, Mahakarnchanakul W, Weiss J (2004)
Antimicrobial activity of ultra-assisted solvent-extracted spices, Lett
Appl Microbiol 39: 401-406
Tiwari KV, Sharma NC, Tiwari V, Singh BD (2000) Micropropagation of
Centella asiatica (L.), a valuable medicinal herb, Plant Cell Tiss Org
Cult 63: 179-185.
Torrey JG (1975) Tracheary element formation from single isolated cells in
culture, Physiol Plant 38: 158-165.
Tripathi L, Tripathi JN (2003) Role of biotechnology in medicinal plants,
Trop J Pharma Res 2(2): 243-253.
Trombetta D, Castelli F, Sarpietro MG, Venuti V, Cristani M, Daniele C, Sajja
A, Mazzanti G Bisignano G (2005) Mechanisms of antibacterial
action of three monoterpenes, Antimicrob Agents Chemother 49:
2474-2478.
Chapter – V References
192Studies on development of medicinally important plants and their antimicrobial properties
Trombetta D, Sajja A, Bisignano G, Arena S, Caruso S, Mazzznti G, Uccella
N, Castelli F (2002) Study on the mechanisms of the antibacterial
action of some plant α, ß-unsaturated aldehydes, Lett Appl Microbiol
35: 285-290.
Uniyal SK, Badoni V, Sati OP (1992) A new Triterpenoidal Saponin from
Acacia auriculiformis, J Nat Prod 55(4): 500-502.
Vardar-Unlu G, Silici S, Unlu M (2008) Composition and in vitro
antimicrobial activity of Populus buds and poplar-type propolis,
World J Microbiol Biotechnol 24: 1011-1017.
Vengadesan G, Ganapathi A, Anand RP, Anbazhagan VR (2002) In vitro
propagation of Acacia sinuata (Lour.) Merr. Via cotyledonary nodes,
Agro forestry Systems 55: 9-15.
Viiri H, Annila E, Kitunen V, Niemela P (2001) Induced responses in
stilbenes and terpenes in fertilized Norway spruce after inoculation
with blue-stain fungus Ceratocystis polonica, Trees 15: 112-122.
Voirin B, Bayet C, Favre-Bonvin J, Nair AGR, Krishna KP (1986)
Flavonoids from the flowers of Acacia latifolia, J Nat Prod 49(5):
943-943.
Wagner KH, Elmadfa I (2003) Biological relevance of terpenoids. Overview
focusing on mono-, di-, and tetraterpenoids, Ann Nutr Metab 47: 95-
106.
Wang G, Yu J, Tian J, Zhang J (1999) Analysis of chemical composition of
catechu, quantitative determination of catechin and epicatechin by
RP-HPLC, Yaowu Fenxi Zazhi (China) 19: 88-90.
Chapter – V References
193Studies on development of medicinally important plants and their antimicrobial properties
Wang ZJ, Wu QP., Tang LY, Fu MH, He Y, Gong QF, Huang LQ (2007) Two
new glycosides from the genus of Cassia, Chin Chem Lett 18(10):
1218-1220.
Went FW (1932) Auxin: the plant growth hormone, The Botanical Review
1(5): 162-182.
Wightman F, Lighty DL (1982) Identification of pheylacetic acid as a natural
auxin in the shoots of higher plants, Physiologia Plantarum 55(1): 17-
24.
Wilson K, Walker J (2000) Chromatographic techniques In: Practical
biochemistry Principles and techniques 5th edition, Cambridge
University Press, Cambridge, UK, pp 619-678.
Wollenweber E (1988) In: Cody V, Middleton E Jr, Harborne JB, Beretz A
(eds) Plant flavonoids in biology and medicine II: biochemical,
cellular and medicinal properties. Liss, New York, pp 45-55.
Xie DY, Hong Y (2001) Regeneration of Acacia mangium through somatic
embryogenesis, Plant Cell Rep 20: 34-40.
Yadav RN (2001) A novel flavone glycoside from the stem of Acacia catechu
Willd, J Inst Chem 73: 104-108.
Yadava R, Jain GC (2000) Antifertility effect of aqueous extract of seeds of
Cassia fistula in female rats, Advances in Contraception 15: 293-301.
Yadav RN, Reddy VMS (2002) Anti-inflammatory activity of a novel
flavonol glycoside from the Bauhinia variegata Linn, Nat Prod Res
17(3): 165-169.
Chapter – V References
194Studies on development of medicinally important plants and their antimicrobial properties
Yadava RN, Sodhi S (2002) A new flavone glycoside: 5,7,3’, 4’-
Tetrahydroxy-3-methoxyflavone-7-O-ß-D-galactopyranosyl-(1→4)-
O-ß-D-glycopyranoside from the stem of Acacia catechu Willd, J
Asian Nat Prod Res 4: 11-15.
Yadava RN, Tripathi P (2000) A novel flavone glycoside from the stem of
Bauhinia purpurea, Fitoterapia 71(1): 88-90.
Yadava RN, Verma V (2003) A new biologically active flavone glycoside
from the seeds of Cassia fistula (Linn.), J Asian Nat Prod Res 5(1):
57-61.
Yamaguchi S, Kamiya Y (2002) Gibberellins and light-stimulated seed
germination, J Plant Growth Regul 20: 369-376.
Yamasaki T, Sakai M, Kanamori T, Sogo M (1986) Low temperature liquid
chromatographic separation of oxygenated terpenes from terpene
Hydrocarbons, J Chromatogr 21: 8.
Yang MC, Lee KH, Kim KH, Choi SU, Lee KR (2007) Lignan and terpene
constituents from the aerial parts of Saussurea pulchella, Arch Pharm
Res 30(9): 1067-1074.
Yang M, Xie X, He X, Zhang F (2006) Plant regeneration from phyllode
explants of Acacia crassicarpa via organogenesis, Plant Cell Tiss Org
Cult 85: 241-245.
Yen GC, Chung DY (1999) Antioxidant effects of extracts from Cassia tora
L. prepared under different degrees of roasting on the oxidative
damage to biomolecules, J Agricult food chem 47(4): 1326-1332.
Chapter – V References
195Studies on development of medicinally important plants and their antimicrobial properties
Yu R, Li X, Zhou X, Shi Q, Tang H (2011) Expression, purification, and
characterization of recombinant human hypoxia inducible factor 1α in
E. coli, World J Microbiol Biotechnol 27: 453-458.
Yu X, Zheng Li, Yang J, Lei T, Ji Y (2011) Characterization of essential
enolase in Stephylococcus aureus, World J Microbiol Biotechnol 27:
897-905.
Zafar R (1994) Medicinal plants of India, CBS Delhi pp 48-61.
Zaka SH, Saleem M, Shakir N, Ahmad K (2006) Fatty acid composition of
Bauhinia variegata and Bauhinia malabarica seed oil-comparision of
their physiochemical properties, Wiley Interscience 85(4): 169-170.
Zaika LL (1998) Spices and herbs: their antimicrobial activity and its
determination, J Food Safety 9: 97-118.
Zavala MA, Perez S, Perez RM (1997) Antimicrobial screening of some
medicinal plants, Phytother Res 11: 368-371.
Zhao YY, Cui CB, Cai B, Han B, Sun QS (2005) A new phenanthraquinone
from the stem of Bauhinia varigata L, J Asian Nat Prod Res 7(6):
835-838.
Zhou L, Lin Q, Li B, Li N, Zhang S (2009) Expression and purification of the
antimicrobial peptide CM4 in Escherichia coli, Biotechnol Lett 31
:437-441.