Ingredient ID 230 
Chinese Pronunciation JUHUA 
English Name Chrysanthemum  
Latin Name Flos Chrysanthemi  
Aliases ChuJu
BoJu
HuangJu
HuaiJu
GongJu  
Cancers Nourish  
Identified Compounds
11

order by name

1. Acaciin

   C28H32O14   592.55
  ID:8

2. Chamazulene

   C14H16   184.28
  ID:986

3. Chrysanthemin

   C21H21ClO11   484.84
  ID:1037

4. Chrysanthenone

   C10H14O   150.22
  ID:1039

5. Cosmosiin

   C21H20O10   432.38
NSC# 407303 Activity (<1uM)
  ID:1279

6. Adabine

   C7H13NO2   143.18
NSC# 655263 Activity (but inactive >10uM)
  ID:5976

7. 3,4-dihydroxy-actophenone

      

8. Aderine

      

9. Chrysandiol

   C15H24O3   252.35
  ID:7101

10. Chrysanthemin B

      

11. Diosmetin-7-glucoside

   C22H22O11   462.4
  ID:7186

 
Recipes that contain
JUHUA
  1. 3      KangAiTang
  2. 140      JuZaoWan
  3. 145      SanHuangHaoLianTang
  4. 172      LaoLiuTang
  5. 322      FangFengXinYiTang
  6. 421      JuZaoWan
  7. 428      SanHuangHaoLianTang
 

Available references (order by impact factor):

1:  Barnes JM, Verschoyle RD.
Toxicity of new pyrethroid insecticide.
Nature.    impact factor:   29.491
1974;  248(450): 711

2:  Elliott M, Farnham AW, Janes NF, Needham PH, Pulman DA.
Synthetic insecticide with a new order of activity.
Nature.    impact factor:   29.491
1974;  248(450): 710-1

3:  Elliott M, Farnham AW, Janes NF, Needham PH, Pulman DA.
Potent pyrethroid insecticides from modified cyclopropane acids.
Nature.    impact factor:   29.491
1973;  244(5416): 456-7

4:  Elliott M, Farnham AW, Janes NF, Needham PH, Pulman DA, Stevenson JH.
A photostable pyrethroid.
Nature.    impact factor:   29.491
1973;  246(5429): 169-70

5:  Casida JE, Kimmel EC, Elliott M, Janes NF.
Oxidative metabolism of pyrethrins in mammals.
Nature.    impact factor:   29.491
1971;  230(5292): 326-7

6:  Godin PJ, King TA, Stahl E, Pfeifle J.
"Pyrethrum" in peonies.
Nature.    impact factor:   29.491
1967;  214(85): 319

7:  Abernathy CO, Casida JE.
Pyrethroid insecticides: esterase cleavage in relation to selective toxicity.
Science.    impact factor:   24.595
1973;  179(79): 1235-6

8:  Carlson JE, Villaveces JW.
Hypersensitivity pneumonitis due to pyrethrum. Report of a case.
JAMA.    impact factor:   15.402
1977;  237(16): 1718-9

9:  [No authors listed]
Allergic contact sensitivity and chronic actinic dermatitis.
Lancet.    impact factor:   10.197
1980;  1(8164): 349-50

10:  De la Pena M, Flores R.
An extra nucleotide in the consensus catalytic core of a viroid hammerhead ribozyme: implications for the design of more efficient ribozymes.
J Biol Chem.    impact factor:   7.666
2001;  276(37): 34586-93

11:  Keen NT, Ridgway D, Boyd C.
Cloning and characterization of a phospholipase gene from Erwinia chrysanthemi EC16.
Mol Microbiol.    impact factor:   6.361
1992;  6(2): 179-87

12:  Bussiere F, Ouellet J, Cote F, Levesque D, Perreault JP.
Mapping in solution shows the peach latent mosaic viroid to possess a new pseudoknot in a complex, branched secondary structure.
J Virol.    impact factor:   5.93
2000;  74(6): 2647-54

13:  Plapp FW.
Biochemical genetics of insecticide resistance.
Annu Rev Entomol.    impact factor:   5.759
1976;  21: 179-97

14:  Haseloff J, Symons RH.
Chrysanthemum stunt viroid: primary sequence and secondary structure.
Nucleic Acids Res.    impact factor:   5.748
1981;  9(12): 2741-52

15:  Symons RH.
Avocado sunblotch viroid: primary sequence and proposed secondary structure.
Nucleic Acids Res.    impact factor:   5.748
1981;  9(23): 6527-37

16:  Gross HJ, Domdey H, Sanger HL.
Comparative oligonucleotide fingerprints of three plant viroids.
Nucleic Acids Res.    impact factor:   5.748
1977;  4(6): 2021-8

17:  Miyano M, Dorn CR.
Prostaglandins. VI. Correlation of the absolute configuration of pyrethrolone with that of the prostaglandins.
J Am Chem Soc.    impact factor:   5.537
1973;  95(8): 2664-9

18:  De la Pena M, Flores R.
Chrysanthemum chlorotic mottle viroid RNA: dissection of the pathogenicity determinant and comparative fitness of symptomatic and non-symptomatic variants.
J Mol Biol.    impact factor:   5.501
2002;  321(3): 411-21

19:  Liu YH, Symons RH.
Specific RNA self-cleavage in coconut cadang cadang viroid: potential for a role in rolling circle replication.
RNA.    impact factor:   5.437
1998;  4(4): 418-29

20:  White JR Jr, Kramer J, Campbell RK, Bernstein R.
Oral use of a topical preparation containing an extract of Stevia rebaudiana and the chrysanthemum flower in the management of hyperglycemia.
Diabetes Care.    impact factor:   5.076
1994;  17(8): 940

21:  Mitchell JC, Geissman TA, Dupuis G, Towers GH.
Allergic contact dermatitis caused by Artemisia and Chrysanthemum species. The role of sesquiterpene lactones.
J Invest Dermatol.    impact factor:   4.903
1971;  56(2): 98-101

22:  Hruban Z, Gotoh M, Slesers A, Chou SF.
Structure of hepatic microbodies in rats treated with acetylsalicylic acid, clofibrate, and dimethrin.
Lab Invest.    impact factor:   4.53
1974;  30(1): 64-75

23:  Vaillant N, Monnet F, Vernay P, Sallanon H, Coudret A, Hitmi A.
Urban wastewater treatment by a nutrient film technique system with a valuable commercial plant species (Chrysanthemum cinerariaefolium Trev.).
Environ Sci Technol.    impact factor:   3.751
2002;  36(9): 2101-6

24:  Betts KS.
Beautifying wastewater treatment.
Environ Sci Technol.    impact factor:   3.751
2002;  36(11): 251A-252A

25:  Brooks AD, He SY, Gold S, Keen NT, Collmer A, Hutcheson SW.
Molecular cloning of the structural gene for exopolygalacturonate lyase from Erwinia chrysanthemi EC16 and characterization of the enzyme product.
J Bacteriol.    impact factor:   3.712
1990;  172(12): 6950-8

26:  He SY, Collmer A.
Molecular cloning, nucleotide sequence, and marker exchange mutagenesis of the exo-poly-alpha-D-galacturonosidase-encoding pehX gene of Erwinia chrysanthemi EC16.
J Bacteriol.    impact factor:   3.712
1990;  172(9): 4988-95

27:  Canady MA, Leja CA, Day J, McPherson A.
Preliminary X-ray diffraction analysis of crystals of tomato aspermy virus (TAV).
Proteins.    impact factor:   3.58
1995;  21(3): 265-7

28:  Romaine CP, Horst RK.
Suggested viroid etiology for chrysanthemum chlorotic mottle disease.
Virology.    impact factor:   3.548
1975;  64(1): 86-95

29:  Diener TO, Lawson RH.
Chrysanthemum stunt: a viroid disease.
Virology.    impact factor:   3.548
1973;  51(1): 94-101

30:  Lawson RH, Hearon S.
Subcellular localization of chrysanthemum aspermy virus in tobacco and chrysanthemum leaf tissue.
Virology.    impact factor:   3.548
1970;  41(1): 30-7

31:  Lawson RH.
Relationships among tomato aspermy, aspermy-related viruses from chrysanthemum, and two strains of cucumber mosaic virus.
Virology.    impact factor:   3.548
1967;  32(3): 357-62

32:  Duineveld BM, Kowalchuk GA, Keijzer A, van Elsas JD, van Veen JA.
Analysis of bacterial communities in the rhizosphere of chrysanthemum via denaturing gradient gel electrophoresis of PCR-amplified 16S rRNA as well as DNA fragments coding for 16S rRNA.
Appl Environ Microbiol.    impact factor:   3.541
2001;  67(1): 172-8

33:  Duineveld BM, Rosado AS, van Elsas JD, van Veen JA.
Analysis of the dynamics of bacterial communities in the rhizosphere of the chrysanthemum via denaturing gradient gel electrophoresis and substrate utilization patterns
Appl Environ Microbiol.    impact factor:   3.541
1998;  64(12): 4950-7

34:  [No authors listed]
High genome-wide mutation rates in vegetatively propagated bermudagrass.
Mol Ecol.    impact factor:   3.442
1999;  8(7): 1211-1221

35:  LeMahieu RA, Tabenkin B, Berger J, Kierstead RW.
Microbiological hydroxylation of allethrone.
J Org Chem.    impact factor:   3.44
1970;  35(5): 1687-8

36:  Wang H, Ye XY, Ng TB.
Purification of chrysancorin, a novel antifungal protein with mitogenic activity from garland chrysanthemum seeds.
Biol Chem.    impact factor:   3.356
2001;  382(6): 947-51

37:  Flores R, Navarro JA, de la Pena M, Navarro B, Ambros S, Vera A.
Viroids with hammerhead ribozymes: some unique structural and functional aspects with respect to other members of the group.
Biol Chem.    impact factor:   3.356
1999;  380(7-8): 849-54

38:  Vaudequin-Dransart V, Petit A, Poncet C, Ponsonnet C, Nesme X, Jones JB, Bouzar H, Chilton WS, Dessaux Y.
Novel Ti plasmids in Agrobacterium strains isolated from fig tree and chrysanthemum tumors and their opinelike molecules.
Mol Plant Microbe Interact.    impact factor:   3.331
1995;  8(2): 311-21

39:  Gross HJ, Krupp G, Domdey H, Raba M, Jank P, Lossow C, Alberty H, Ramm K, Sanger HL.
Nucleotide sequence and secondary structure of citrus exocortis and chrysanthemum stunt viroid.
Eur J Biochem.    impact factor:   3.307
1982;  121(2): 249-57

40:  Wang CM, Narahashi T, Scuka M.
Mechanism of negative temperature coefficient of nerve blocking action of allethrin.
J Pharmacol Exp Ther.    impact factor:   3.3
1972;  182(3): 442-53

41:  Nakajima M, Hayakawa T, Nakamura I, Suzuki M.
Protection against cucumber mosaic virus (CMV) strains O and Y and chrysanthemum mild mottle virus in transgenic tobacco plants expressing CMV-O coat protein.
J Gen Virol.    impact factor:   3.061
1993;  74 ( Pt 2): 319-22

42:  Matsunaga R, Sawamura K, De Kok M, Makino T, Miki K, Kojima M, Tsuchizaki T, Hibi T.
Electrotransfection of protoplasts from tomato, wild tomato, barley and chrysanthemum with tobacco mosaic virus RNA.
J Gen Virol.    impact factor:   3.061
1992;  73 ( Pt 4): 763-6

43:  O'Reilly D, Thomas CJ, Coutts RH.
Tomato aspermy virus has an evolutionary relationship with other tripartite RNA plant viruses.
J Gen Virol.    impact factor:   3.061
1991;  72 ( Pt 1): 1-7

44:  Levay K, Zavriev S.
Nucleotide sequence and gene organization of the 3'-terminal region of chrysanthemum virus B genomic RNA.
J Gen Virol.    impact factor:   3.061
1991;  72 ( Pt 10): 2333-7

45:  Yamamoto K, Sakurai N, Yoshikura H.
Graphics of RNA secondary structure; towards an object-oriented algorithm.
Comput Appl Biosci.    impact factor:   2.924
1987;  3(2): 99-103

46:  Yamamoto K, Yoshikura H.
Computer program for prediction of the optimal and suboptimal secondary structures of long RNA molecules.
Comput Appl Biosci.    impact factor:   2.924
1985;  1(2): 89-94

47:  Baer RL, Ramsey DL, Biondi E.
The most common contact allergens 1968-1970.
Arch Dermatol.    impact factor:   2.889
1973;  108(1): 74-8

48:  Takahashi K, Matsuda M, Ohashi K, Taniguchi K, Nakagomi O, Abe Y, Mori S, Sato N, Okutani K, Shigeta S.
Analysis of anti-rotavirus activity of extract from Stevia rebaudiana.
Antiviral Res.    impact factor:   2.758
2001;  49(1): 15-24

49:  Stanberry LR, Bernstein DI, Myers MG.
Evaluation of the herpes simplex virus antiviral activity of pyrethrins.
Antiviral Res.    impact factor:   2.758
1986;  6(2): 95-102

50:  Springfield AC, Carlson GP, DeFeo JJ.
Liver enlargement and modification of hepatic microsomal drug metabolism in rats by pyrethrum.
Toxicol Appl Pharmacol.    impact factor:   2.73
1973;  24(2): 298-308

51:  Narahashi T, Anderson NC.
Mechanism of excitation block by the insecticide allethrin applied externally and internally to squid giant axons.
Toxicol Appl Pharmacol.    impact factor:   2.73
1967;  10(3): 529-47

52:  Hiyama T, Yumoto K, Satoh A, Takahashi M, Nishikido T, Nakamoto H, Suzuki K, Hiraide T.
Chromatographic separation of a small subunit (PsbW/PsaY) and its assignment to Photosystem I reaction center.
Biochim Biophys Acta.    impact factor:   2.59
2000;  1459(1): 117-24

53:  Kovacs LG, Pueppke SG.
Mapping and genetic organization of pTiChry5, a novel Ti plasmid from a highly virulent Agrobacterium tumefaciens strain.
Mol Gen Genet.    impact factor:   2.539
1994;  242(3): 327-36

54:  Van Ieperen W, Nijsse J, Keijzer CJ, Van Meeteren U.
Induction of air embolism in xylem conduits of pre-defined diameter.
J Exp Bot.    impact factor:   2.482
2001;  52(358): 981-91

55:  Nijsse J, van der Heijden GW, van Ieperen W, Keijzer CJ, van Meeteren U.
Xylem hydraulic conductivity related to conduit dimensions along chrysanthemum stems.
J Exp Bot.    impact factor:   2.482
2001;  52(355): 319-27

56:  Scheenen TW, van Dusschoten D, de Jager PA, Van As H.
Quantification of water transport in plants with NMR imaging.
J Exp Bot.    impact factor:   2.482
2000;  51(351): 1751-9

57:  van Ieperen W, van Meeteren U, van Gelder H.
Fluid ionic composition influences hydraulic conductance of xylem conduits.
J Exp Bot.    impact factor:   2.482
2000;  51(345): 769-76

58:  Casida JE.
Pyrethrum flowers and pyrethroid insecticides.
Environ Health Perspect.    impact factor:   2.469
1980;  34: 189-202

59:  Elliott M.
Properties and applications of pyrethroids.
Environ Health Perspect.    impact factor:   2.469
1976;  14: 1-2

60:  Chapman RA.
Canadian Food and Drug viewpoint on pesticide tolerances.
Can Med Assoc J.    impact factor:   2.356
1969;  100(4): 192-7

61:  Lykken L, Casida JE.
Metabolism of organic insecticide chemicals.
Can Med Assoc J.    impact factor:   2.356
1969;  100(4): 145-54

62:  Brown AW.
Insecticide resistance and the future control of insects.
Can Med Assoc J.    impact factor:   2.356
1969;  100(4): 216-21

63:  Herz W, Mirrington RN.
Identification of pyrethrol with taraxasterol.
J Pharm Sci.    impact factor:   2.27
1966;  55(1): 104

64:  Wakelin SH, Marren P, Young E, Shaw S.
Compositae sensitivity and chronic hand dermatitis in a seven-year-old boy.
Br J Dermatol.    impact factor:   2.23
1997;  137(2): 289-91

65:  Frain-Bell W, Hetherington A, Johnson BE.
Contact allergic sensitivity to chrysanthemum and the photosensitivity dermatitis and actinic reticuloid syndrome.
Br J Dermatol.    impact factor:   2.23
1979;  101(5): 491-501

66:  Mitchell JC, Dupuis G, Towers GH.
Allergic contact dermatitis from pyrethrum (Chrysanthemum spp.). The roles of pyrethrosin, a sesquiterpene lactone, and of pyrethrin II.
Br J Dermatol.    impact factor:   2.23
1972;  86(6): 568-73

67:  Ogawa Y, Mii M.
Ti- and cryptic-plasmid-borne virulence of wild-type Agrobacterium tumefaciens strain CNI5 isolated from chrysanthemum (Dendranthema grandiflora Tzvelev).
Arch Microbiol.    impact factor:   2.209
2001;  176(5): 315-22

68:  Ogawa Y, Ishikawa K, Mii M.
Highly tumorigenic Agrobacterium tumefaciens strain from crown gall tumors of chrysanthemum.
Arch Microbiol.    impact factor:   2.209
2000;  173(4): 311-5

69:  Weintraub MI, Ribner JA, Gallagher BB.
Transient internal ophthalmoplegia. Areflexia and methacholine hypersensitivity with unidentified systemic disease.
Arch Ophthalmol.    impact factor:   2.168
1971;  86(5): 595-8

70:  Surtees G.
Locomotory behaviour of pyrethrum-resistant and susceptible strains of grain weevil, Sitophilus granarius (L.) (Coleoptera, Curculionidae).
Anim Behav.    impact factor:   2.148
1966;  14(2): 201-3

71:  Bramwell AF, Crombie L, Hemesley P, Pattenden G, Elliott M, Janes NF.
Nuclear magnetic resonance spectra of the natural pyrethrins and related compounds.
Tetrahedron.    impact factor:   2.121
1969;  25(8): 1727-41

72:  van den Bercken J, Akkermans LM, van der Zalm JM.
DDT-like action of allethrin in the sensory nervous system of Xenopus laevis.
Eur J Pharmacol.    impact factor:   2.047
1973;  21(1): 95-106

73:  Tsevegsuren N, Christie WW, Losel D.
Tanacetum (Chrysanthemum) corymbosum seed oil--a rich source of a novel conjugated acetylenic acid.
Lipids.    impact factor:   2.04
1998;  33(7): 723-7

74:  Kim SC, Kang WH.
Nevus comedonicus associated with epidermal nevus.
J Am Acad Dermatol.    impact factor:   1.905
1989;  21(5 Pt 2): 1085-8

75:  Wolff K, Peters-van Rijn J.
Rapid detection of genetic variability in chrysanthemum (Dendranthema grandiflora Tzvelev) using random primers.
Heredity.    impact factor:   1.875
1993;  71 ( Pt 4): 335-41

76:  Annadana S, Beekwilder MJ, Kuipers G, Visser PB, Outchkourov N, Pereira A, Udayakumar M, De Jong J, Jongsma MA.
Cloning of the chrysanthemum UEP1 promoter and comparative expression in florets and leaves of Dendranthema grandiflora.
Transgenic Res.    impact factor:   1.849
2002;  11(4): 437-45

77:  van Wordragen MF, Honee G, Dons HJ.
Insect-resistant chrysanthemum calluses by introduction of a Bacillus thuringiensis crystal protein gene.
Transgenic Res.    impact factor:   1.849
1993;  2(3): 170-80

78:  Groenewoud GC, de Jong NW, Burdorf A, de Groot H, van Wyk RG.
Prevalence of occupational allergy to Chrysanthemum pollen in greenhouses in the Netherlands.
Allergy.    impact factor:   1.801
2002;  57(9): 835-40

79:  Piirila P, Kanerva L, Alanko K, Estlander T, Keskinen H, Pajari-Backas M, Tuppurainen M.
Occupational IgE-mediated asthma, rhinoconjunctivitis, and contact urticaria caused by Easter lily (Lilium longiflorum) and tulip.
Allergy.    impact factor:   1.801
1999;  54(3): 273-7

80:  de Jong NW, Vermeulen AM, Gerth van Wijk R, de Groot H.
Occupational allergy caused by flowers.
Allergy.    impact factor:   1.801
1998;  53(2): 204-9

81:  Jackson JA, Matthews D.
Modified inter-simple sequence repeat PCR protocol for use in conjunction with the LI-COR Gene ImagIR2 DNA analyzer.
Biotechniques.    impact factor:   1.749
2000;  28(5): 914-6, 918, 920

82:  Musetti R, Loi N, Carraro L, Ermacora P.
Application of immunoelectron microscopy techniques in the diagnosis of phytoplasma diseases.
Microsc Res Tech.    impact factor:   1.746
2002;  56(6): 462-4

83:  Bhavnagary HM, Ahmed SM.
A spectrophotometric method for the micro-determination of piperonyl butoxide in the presence of pyrethrins.
Analyst.    impact factor:   1.677
1973;  98(172): 792-6

84:  Hu CQ, Chen K, Shi Q, Kilkuskie RE, Cheng YC, Lee KH.
Anti-AIDS agents, 10. Acacetin-7-O-beta-D-galactopyranoside, an anti-HIV principle from Chrysanthemum morifolium and a structure-activity correlation with some related flavonoids.
J Nat Prod.    impact factor:   1.652
1994;  57(1): 42-51

85:  Silva MS, Martins CR, Bezerra IC, Nagata T, de Avila AC, Resende RO.
Sequence diversity of NS(M) movement protein of tospoviruses.
Arch Virol.    impact factor:   1.591
2001;  146(7): 1267-81

86:  Candresse T, Gora-Sochacka A, Zagorski W.
Restoration of secondary hairpin II is associated with restoration of infectivity of a non-viable recombinant viroid.
Virus Res.    impact factor:   1.568
2001;  75(1): 29-34

87:  Ukiya M, Akihisa T, Yasukawa K, Kasahara Y, Kimura Y, Koike K, Nikaido T, Takido M.
Constituents of compositae plants. 2. Triterpene diols, triols, and their 3-o-fatty acid esters from edible chrysanthemum flower extract and their anti-inflammatory effects.
J Agric Food Chem.    impact factor:   1.56
2001;  49(7): 3187-97

88:  Bylaite E, Venskutonis R, Roozen JP, Posthumus MA.
Composition of essential oil of costmary [Balsamita major (L.) Desf. ] at different growth phases.
J Agric Food Chem.    impact factor:   1.56
2000;  48(6): 2409-14

89:  Kuo JM, Yeh DB, Pan BS.
Rapid photometric assay evaluating antioxidative activity in edible plant material.
J Agric Food Chem.    impact factor:   1.56
1999;  47(8): 3206-9

90:  Rugutt JK, Henry CW III, Franzblau SG, Warner IM.
NMR and molecular mechanics study of pyrethrins I and II.
J Agric Food Chem.    impact factor:   1.56
1999;  47(8): 3402-10

91:  Elliott M, Janes NF, Pulman DA, Gaughan LC, Unai T, Casida JE.
Radiosynthesis and metabolism in rats of the 1R isomers of the insecticide permethrin.
J Agric Food Chem.    impact factor:   1.56
1976;  24(2): 270-6

92:  Ueda K, Gaughan LC, Casida JE.
Metabolism of (+)-trans- and (+)-cis-resmethrin in rats.
J Agric Food Chem.    impact factor:   1.56
1975;  23(1): 106-15

93:  Brown DG, Bodenstein OF, Norton SJ.
Halopyrethroids. II. A difluoropyrethroid.
J Agric Food Chem.    impact factor:   1.56
1975;  23(1): 115-7

94:  Sawicki RM.
Genetics of resistance of a dimethoate-selected strain of houseflies (Musca domestica L.) To several insecticides and methylenedioxphenyl synergists.
J Agric Food Chem.    impact factor:   1.56
1974;  22(3): 344-9

95:  Ueda K, Gaughan LC, Casida JE.
Photodecomposition of resmethrin and related pyrethroids.
J Agric Food Chem.    impact factor:   1.56
1974;  22(2): 212-20

96:  Brown DG, Bodenstein OF, Norton SJ.
New potent pyrethroid, bromethrin.
J Agric Food Chem.    impact factor:   1.56
1973;  21(5): 767-9

97:  Head SW.
Carotenoid constituents of pyrethrum flowers (Chrysanthemum cinerariaefolium).
J Agric Food Chem.    impact factor:   1.56
1973;  21(6): 999-1001

98:  Elliott M, Janes NF, Kimmel EC, Casida JE.
Metabolic fate of pyrethrin I, Pyrethrin II, and allethrin administered orally to rats.
J Agric Food Chem.    impact factor:   1.56
1972;  20(2): 300-13

99:  Thune P, Sandberg M.
Allergy to lichen and compositae compounds in perfumes. Investigations on the sensitizing, toxic and mutagenic potential.
Acta Derm Venereol Suppl (Stockh).    impact factor:   1.549
1987;  134: 87-9

100:  Mitcell JC.
Compositae and Frullania phytodermatitis.
Acta Derm Venereol Suppl (Stockh).    impact factor:   1.549
1987;  134: 69-76

101:  Cubero J, Martinez MC, Llop P, Lopez MM.
A simple and efficient PCR method for the detection of Agrobacterium tumefaciens in plant tumours.
J Appl Microbiol.    impact factor:   1.521
1999;  86(4): 591-602

102:  Ukiya M, Akihisa T, Tokuda H, Suzuki H, Mukainaka T, Ichiishi E, Yasukawa K, Kasahara Y, Nishino H.
Constituents of Compositae plants III. Anti-tumor promoting effects and cytotoxic activity against human cancer cell lines of triterpene diols and triols from edible chrysanthemum flowers.
Cancer Lett.    impact factor:   1.518
2002;  177(1): 7-12

103:  Nakahara K, Hataya T, Uyeda I.
A simple, rapid method of nucleic acid extraction without tissue homogenization for detecting viroids by hybridization and RT-PCR.
J Virol Methods.    impact factor:   1.505
1999;  77(1): 47-58

104:  Romero-Durban J, Cambra M, Duran-Vila N.
A simple imprint-hybridization method for detection of viroids.
J Virol Methods.    impact factor:   1.505
1995;  55(1): 37-47

105:  McInnes JL, Habili N, Symons RH.
Nonradioactive, photobiotin-labelled DNA probes for routine diagnosis of viroids in plant extracts.
J Virol Methods.    impact factor:   1.505
1989;  23(3): 299-312

106:  Sano T, Kudo H, Sugimoto T, Shikata E.
Synthetic oligonucleotide hybridization probes to diagnose hop stunt viroid strains and citrus exocortis viroid.
J Virol Methods.    impact factor:   1.505
1988;  19(2): 109-19

107:  Candresse T, Macquaire G, Monsion M, Dunez J.
Detection of Chrysanthemum stunt viroid (CSV) using nick translated probes in a dot-blot hybridization assay.
J Virol Methods.    impact factor:   1.505
1988;  20(3): 185-93

108:  Flores R.
Detection of citrus exocortis viroid in crude extracts by dot-blot hybridization: conditions for reducing spurious hybridization results and for enhancing the sensitivity of the technique.
J Virol Methods.    impact factor:   1.505
1986;  13(2): 161-9

109:  Reyes-Arribas T, Barrett JE, Huber DJ, Nell TA, Clark DG.
Leaf senescence in a non-yellowing cultivar of chrysanthemum (Dendranthema grandiflora).
Physiol Plant.    impact factor:   1.476
2001;  111(4): 540-544

110:  Lee JR, Yang MS, Jang DS, Ha TJ, Park KM, Lee CH, Kho YH, Park KH.
A new guaianolide as apoptosis inhibitor from Chrysanthemum boreale.
Planta Med.    impact factor:   1.438
2001;  67(6): 585-7

111:  Barsby RW, Salan U, Knight DW, Hoult JR.
Feverfew and vascular smooth muscle: extracts from fresh and dried plants show opposing pharmacological profiles, dependent upon sesquiterpene lactone content.
Planta Med.    impact factor:   1.438
1993;  59(1): 20-5

112:  Mladenova K, Tsankova E, van Hung D.
New sesquiterpenoids from Chrysanthemum indicum var. tuneful.
Planta Med.    impact factor:   1.438
1988;  54(6): 553-5

113:  Losche W, Michel E, Heptinstall S, Krause S, Groenewegen WA, Pescarmona GP, Thielmann K.
Inhibition of the behaviour of human polynuclear leukocytes by an extract of Chrysanthemum parthenium.
Planta Med.    impact factor:   1.438
1988;  54(5): 381-4

114:  Nano GM, Bicchi C, Frattini C, Gallino M.
Wild Piedmontese plants. II. A rare chemotype of Tanacetum vulgare L., abundant in Piedmont (Italy).
Planta Med.    impact factor:   1.438
1979;  35(3): 270-4

115:  Balbaa SI, Abdel-Kader EM, Abdel-Wahab SM, Zaki AY, el-Shamy AM.
Comparative study between different methods used for estimation of pyrethrins and a new suggested method.
Planta Med.    impact factor:   1.438
1972;  21(4): 347-52

116:  Abdel Wahab SM, Abdel Kader EM, Sayed MD.
Contribution to the study of the constituents of Chrysanthemum anethifolium.
Planta Med.    impact factor:   1.438
1968;  16(4): 426-31

117:  Archibald BA, Solomon KR, Stephenson GR.
Estimating pirimicarb exposure to greenhouse workers using video imaging.
Arch Environ Contam Toxicol.    impact factor:   1.437
1994;  27(1): 126-9

118:  Archibald BA, Solomon KR, Stephenson GR.
A new procedure for calibrating the video imaging technique for assessing dermal exposure to pesticides.
Arch Environ Contam Toxicol.    impact factor:   1.437
1994;  26(3): 398-402

119:  Mauck WL, Olson LE.
Toxicity of natural pyrethrins and five pyrethroids to fish.
Arch Environ Contam Toxicol.    impact factor:   1.437
1976;  4(1): 18-29

120:  Casida JE, Ueda K, Gaughan LC, Jao LT, Soderlund DM.
Structure-biodegradability relationships in pyrethroid insecticides.
Arch Environ Contam Toxicol.    impact factor:   1.437
1975;  3(4): 491-500

121:  Steger G, Hofmann H, Fortsch J, Gross HJ, Randles JW, Sanger HL, Riesner D.
Conformational transitions in viroids and virusoids: comparison of results from energy minimization algorithm and from experimental data.
J Biomol Struct Dyn.    impact factor:   1.407
1984;  2(3): 543-71

122:  Axelrad JC, Howard CV, McLean WG.
Interactions between pesticides and components of pesticide formulations in an in vitro neurotoxicity test.
Toxicology.    impact factor:   1.343
2002;  173(3): 259-68

123:  Kimbrough RD, Gaines TB, Hayes WJ Jr.
Combined effect of DDT, pyrethrum, and piperonyl butoxide on rat liver.
Arch Environ Health.    impact factor:   1.308
1968;  16(3): 333-41

124:  Hausen BM, Schulz KH, Jarchow O, Klaska KH, Schmalle H.
A first allergenic sesquiterpene lactone from Chrysanthemum indicum L.: arteglasin-A.
Naturwissenschaften.    impact factor:   1.279
1975;  62(12): 585-6

125:  Lee S, Choi B, Lee SH, Lee JB.
Effect of isotretinoin on experimentally induced comedones.
Arch Dermatol Res.    impact factor:   1.267
1986;  279(2): 120-4

126:  Zeller W, de Gols M, Hausen BM.
The sensitizing capacity of Compositae plants. VI. Guinea pig sensitization experiments with ornamental plants and weeds using different methods.
Arch Dermatol Res.    impact factor:   1.267
1985;  277(1): 28-35

127:  Hausen BM, Schulz KH.
Chrysanthemum allergy III. Identification of the allergens.
Arch Dermatol Res.    impact factor:   1.267
1976;  255(2): 111-21

128:  Nakagawa R, Hori T, Tobiishi K, Iida T, Tsutsumi T, Sasaki K, Toyoda M.
Levels and tissue-dependent distribution of dioxin in Japanese domestic leafy vegetables--from the 1999 national investigation.
Chemosphere.    impact factor:   1.255
2002;  48(2): 247-56

129:  Owen JD.
X-ray crystal structures of two pyrethroid insecticides: cis-3-phenoxybenzyl 3-(2,2-dibromovinyl)-2,2-dimethylcyclopropanecarboxylate and the 3-(2,2-dichlorovinyl) analogue.
J Chem Soc [Perkin 1].    impact factor:   1.218
1976;  (11): 1231-5

130:  Crombie L, Pattenden G, Simmonds DJ.
Carbon-13 nuclear magnetic resonance spectra of the natural pyrethrins and related compounds.
J Chem Soc [Perkin 1].    impact factor:   1.218
1975;  (15): 1500-2

131:  Owen JD.
Absolute configuration of the most potent isomer of the pyrethroid insecticide alpha-cyano-3-phenoxybenzyl cis-3-(2,2-dibromovinyl)-2,2-dimethylcyclopropanecarboxylate by crystal structure analysis.
J Chem Soc [Perkin 1].    impact factor:   1.218
1975;  (19): 1865-8

132:  Elliott M, Janes NF, Pulman DA.
The pyrethrins and related compounds. Part XVIII. Insecticidal 2,2-dimethylcyclopropanecarboxylates with new unsaturated substituents.
J Chem Soc [Perkin 1].    impact factor:   1.218
1974;  (21): 2470-4

133:  Banthorpe DV, Baxendale D.
Terpene biosynthesis. 3. Biosynthesis of (+)- and (-)-camphor in Artemisia, Salvia, and Chrysanthemum species.
J Chem Soc [Perkin 1].    impact factor:   1.218
1970;  19: 2694-6

134:  Essig K, Zhao Z.
Method development and validation of a high-performance liquid chromatographic method for pyrethrum extract.
J Chromatogr Sci.    impact factor:   1.199
2001;  39(11): 473-80

135:  Zehner JM, Simonaitis RA.
The determination of BHT in resmethrin by high-pressure liquid chromatography.
J Chromatogr Sci.    impact factor:   1.199
1976;  14(7): 326-7

136:  Edmundson WF, Davies JE, Cranmer M.
DDT and DDE in blood and DDA in urine of men exposed to 3 percent DDT aerosol.
Public Health Rep.    impact factor:   1.197
1970;  85(5): 457-63

137:  Nijsse J, van Aelst AC.
Cryo-planing for cryo-scanning electron microscopy.
Scanning.    impact factor:   1.185
1999;  21(6): 372-8

138:  Page KW.
Automatic control of guinea-pig lice with a synergised pyrethrins aerosol.
Vet Rec.    impact factor:   1.173
1974;  94(12): 254-5

139:  Green CJ, Needham JR.
Control of mange mites in a large mouse colony.
Lab Anim.    impact factor:   1.12
1974;  8(2): 245-51

140:  Matsuda H, Morikawa T, Toguchida I, Harima S, Yoshikawa M.
Medicinal flowers. VI. Absolute stereostructures of two new flavanone glycosides and a phenylbutanoid glycoside from the flowers of Chrysanthemum indicum L.: their inhibitory activities for rat lens aldose reductase.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
2002;  50(7): 972-5

141:  Yoshikawa M, Morikawa T, Toguchida I, Harima S, Matsuda H.
Medicinal flowers. II. Inhibitors of nitric oxide production and absolute stereostructures of five new germacrane-type sesquiterpenes, kikkanols D, D monoacetate, E, F, and F monoacetate from the flowers of Chrysanthemum indicum L.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
2000;  48(5): 651-6

142:  Yoshikawa M, Morikawa T, Murakami T, Toguchida I, Harima S, Matsuda H.
Medicinal flowers. I. Aldose reductase inhibitors and three new eudesmane-type sesquiterpenes, kikkanols A, B, and C, from the flowers of Chrysanthemum indicum L.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1999;  47(3): 340-5

143:  Terashima S, Shimizu M, Horie S, Morita N.
Studies on aldose reductase inhibitors from natural products. IV. Constituents and aldose reductase inhibitory effect of Chrysanthemum morifolium, Bixa orellana and Ipomoea batatas.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1991;  39(12): 3346-7

144:  Alvarez-Castellanos PP, Bishop CD, Pascual-Villalobos MJ.
Antifungal activity of the essential oil of flowerheads of garland chrysanthemum (Chrysanthemum coronarium) against agricultural pathogens.
Phytochemistry.    impact factor:   1.106
2001;  57(1): 99-102

145:  Akihisa T, Yasukawa K, Oinuma H, Kasahara Y, Yamanouchi S, Takido M, Kumaki K, Tamura T.
Triterpene alcohols from the flowers of compositae and their anti-inflammatory effects.
Phytochemistry.    impact factor:   1.106
1996;  43(6): 1255-60

146:  MacKenzie AJ, Ownley BH, Starman TW, Windham MT.
Effect of delivery method and population size of Trichoderma harzianum on growth response of unrooted chrysanthemum cuttings.
Can J Microbiol.    impact factor:   1.072
2000;  46(8): 730-5

147:  Leben C, Whitmoyer RE.
Adherence of bacteria to leaves.
Can J Microbiol.    impact factor:   1.072
1979;  25(8): 896-901

148:  Lee KD, Yang MS, Ha TJ, Park KM, Park KH.
Isolation and identification of dihydrochrysanolide and its 1-epimer from Chrysanthemum coronarium L.
Biosci Biotechnol Biochem.    impact factor:   1.039
2002;  66(4): 862-5

149:  Takenaka M, Nagata T, Yoshida M.
Stability and bioavailability of antioxidants in garland (Chrysanthemum coronarium L.).
Biosci Biotechnol Biochem.    impact factor:   1.039
2000;  64(12): 2689-91

150:  Nakata K, Harada N, Sumitomo K, Yoneda K.
Enhancement of plant stem growth by flocculation of the antibiotic-producing bacterium, Pseudomonas fluorescens S272, on the roots.
Biosci Biotechnol Biochem.    impact factor:   1.039
2000;  64(3): 459-65

151:  Ichimura K, Kohata K, Yamaguchi Y, Douzono M, Ikeda H, Koketsu M.
Identification of L-inositol and scyllitol and their distribution in various organs in chrysanthemum.
Biosci Biotechnol Biochem.    impact factor:   1.039
2000;  64(4): 865-8

152:  Ono H, Tesaki S, Tanabe S, Watanabe M.
6-Methylsulfinylhexyl isothiocyanate and its homologues as food-originated compounds with antibacterial activity against Escherichia coli and Staphylococcus aureus.
Biosci Biotechnol Biochem.    impact factor:   1.039
1998;  62(2): 363-5

153:  Secoy DM.
Investigatory behaviour of plains garter snakes, Thamnophis radix (Reptilia: Colubridae), in tests of repellant chemicals.
Can J Zool.    impact factor:   1.015
1979;  57(3): 691-3

154:  Willis NL, Thomas JA.
Pyrethroid contact sprays against the house fly (Musca domestica L.).
J Med Entomol.    impact factor:   1.011
1975;  12(4): 457-8

155:  Sullivan WN, Schoof HF, Maddock DR, Amyx CM, Porter JE.
D-Phenothrin, a promising new pyrethroid for disinsecting aircraft.
J Med Entomol.    impact factor:   1.011
1974;  11(2): 231-3

156:  Huang CJ, Wu MC.
Differential effects of foods traditionally regarded as 'Heating' and 'Cooling' on prostaglandin e(2) production by a macrophage cell line.
J Biomed Sci.    impact factor:   .99
2002;  9(6): 596-606

157:  Choi SK, Choi JK, Ryu KH, Park WM.
Generation of infectious cDNA clones of a Korean strain of tomato aspermy virus.
Mol Cells.    impact factor:   .93
2002;  13(1): 52-60

158:  Sadof CS, Sclar DC.
Public tolerance to defoliation and flower distortion in a public horticulture garden.
J Econ Entomol.    impact factor:   .909
2002;  95(2): 348-53

159:  Held DW, Potter DA, Gates RS, Anderson RG.
Modified atmosphere treatments as a potential disinfestation technique for arthropod pests in greenhouses.
J Econ Entomol.    impact factor:   .909
2001;  94(2): 430-8

160:  Schmidt CD, Matter JJ, Meurer JH, Reeves RE, Shelley BK.
Evaluation of a synthetic pyrethroid for control of stable flies and horn flies on cattle.
J Econ Entomol.    impact factor:   .909
1976;  69(4): 484-6

161:  Schulze TL, Hansens EJ.
Synergims of resmethrin in the house fly.
J Econ Entomol.    impact factor:   .909
1975;  68(6): 807-9

162:  Davis JW, Harding JA, Wolfenbarger DA.
Activity of a synthetic pyrethroid against cotton insects.
J Econ Entomol.    impact factor:   .909
1975;  68(3): 373-4

163:  Webb RE, Argauer RJ.
Uptake of monocrotophos by chrysanthemum cultivars and resulting control of melon aphid.
J Econ Entomol.    impact factor:   .909
1974;  67(2): 251-2

164:  Webb RE, Smith FF, Sullivan WN, Schechter MS, Boswell AL, Ewing A.
Resmethrin: evaluation against some common greenhouse pests.
J Econ Entomol.    impact factor:   .909
1974;  67(2): 295

165:  Robertson JL, Lyon RL, Shon FL, Page M.
Western blackheaded budworm: toxicity of five insecticides to two populations.
J Econ Entomol.    impact factor:   .909
1973;  66(1): 274-5

166:  Cochran DG.
Inheritance and linkage of pyrethrins resistance in the German cockroach.
J Econ Entomol.    impact factor:   .909
1973;  66(1): 27-30

167:  Collins WJ.
German cockroach resistance. 1. Resistance to diazinon includes cross-resistance to DDT, pyrethrins, and propoxur in a laboratory colony.
J Econ Entomol.    impact factor:   .909
1973;  66(1): 44-7

168:  Morgan NO, Sullivan WN, Schechter MS.
Micronized resmethrin dust for control of flies in dairy barns.
J Econ Entomol.    impact factor:   .909
1973;  66(6): 1281-2

169:  Schechter MS, Sullivan WN.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 2. Pesticide formulations.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1444-7

170:  Steiner LF, Lopez F, Woodley JR.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 3. Effectiveness against free flying Caribbean fruit flies.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1447-50

171:  Jakob WL, Maddock DR, Schoof HF, Porter JE.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 5. Effectiveness against insects of public health importance.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1454-8

172:  Burden GS.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 6. Insects of medical importance.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1458-62

173:  Sullivan WN, Schechter MS, Amyx CM, Crooks EE.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 7. Effectiveness against pest insects of agriculture.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1462-6

174:  Smith FF, Boswell AL.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 8. Toxicity of micronized dusts to some greenhouse insects.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1466-8

175:  Gladney WJ, Dawkins CC.
Insecticidal tests against the brown recluse spider.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1491-3

176:  Moore RC.
Boric acid-silica dusts for control of German cockroaches.
J Econ Entomol.    impact factor:   .909
1972;  65(2): 458-61

177:  Roberts RB, Lyon RL, Duckles CK, Look M.
Influence of selected synergists on the action of five insecticides on larval western spruce budworm: absence of synergism and in vitro oxidation of Zectran.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1277-82

178:  Gillenwater HB, Eason G, Bauman EB.
Gas-propelled aerosols and micronized dusts for control of insects in aircraft. 4. Potential for controlling stored-product insects.
J Econ Entomol.    impact factor:   .909
1972;  65(5): 1450-3

179:  Sullivan WN, Cawley B, Hayes DK, Rosenthal J, Halberg F.
Circadian rhythm in susceptibility of house flies and Madeira cockroaches to pyrethrum.
J Econ Entomol.    impact factor:   .909
1970;  63(1): 159-63

180:  Fales JH, Bodenstein OF, Bowers WS.
Seven juvenile hormone analogues as synergists for pyrethrins against house flies.
J Econ Entomol.    impact factor:   .909
1970;  63(4): 1379-80

181:  Schmidt RJ.
Plant dermatitis. Compositae.
Clin Dermatol.    impact factor:   .855
1986;  4(2): 46-61

182:  Porterfield H.
UsToo PC-SPES surveys: review of studies and update of previous survey results.
Mol Urol.    impact factor:   .822
2000;  4(3): 289-91;discussion 293

183:  Williams CA, Greenham J, Harborne JB.
The role of lipophilic and polar flavonoids in the classification of temperate members of the Anthemideae.
Biochem Syst Ecol.    impact factor:   .758
2001;  29(9): 929-945

184:  Paulsen E, Andersen KE, Hausen BM.
Sensitization and cross-reaction patterns in Danish Compositae-allergic patients.
Contact Dermatitis.    impact factor:   .741
2001;  45(4): 197-204

185:  Fischer TW, Bauer A, Hipler UC, Elsner P.
Non-immunologic contact urticaria from chrysanthemum confirmed by the CAST method. Complement-activated (C5a) cellular antigen stimulation test.
Contact Dermatitis.    impact factor:   .741
1999;  41(5): 293-5

186:  Kuno Y, Kawabe Y, Sakakibara S.
Allergic contact dermatitis associated with photosensitivity, from alantolactone in a chrysanthemum farmer.
Contact Dermatitis.    impact factor:   .741
1999;  40(4): 224-5

187:  Paulsen E, Sogaard J, Andersen KE.
Occupational dermatitis in Danish gardeners and greenhouse workers (III). Compositae-related symptoms.
Contact Dermatitis.    impact factor:   .741
1998;  38(3): 140-6

188:  Goncalo S, Goncalo M, Sequeira J.
Contact dermatitis to Dendranthema morifolium (Ramat).
Contact Dermatitis.    impact factor:   .741
1996;  35(5): 310-1

189:  Lamminpaa A, Estlander T, Jolanki R, Kanerva L.
Occupational allergic contact dermatitis caused by decorative plants.
Contact Dermatitis.    impact factor:   .741
1996;  34(5): 330-5

190:  Nandakishore T, Pasricha JS.
Pattern of cross-sensitivity between 4 Compositae plants, Parthenium hysterophorus, Xanthium strumarium, Helianthus annuus and Chrysanthemum coronarium, in Indian patients.
Contact Dermatitis.    impact factor:   .741
1994;  30(3): 162-7

191:  Quirce S, Tabar AI, Muro MD, Olaguibel JM.
Airborne contact dermatitis from Frullania.
Contact Dermatitis.    impact factor:   .741
1994;  30(2): 73-6

192:  Ueda A, Aoyama K, Manda F, Ueda T, Kawahara Y.
Delayed-type allergenicity of triforine (Saprol).
Contact Dermatitis.    impact factor:   .741
1994;  31(3): 140-5

193:  Lovell CR, Rowan M.
Dandelion dermatitis.
Contact Dermatitis.    impact factor:   .741
1991;  25(3): 185-8

194:  Sharma SC, Tanwar RC, Kaur S.
Contact dermatitis from chrysanthemums in India.
Contact Dermatitis.    impact factor:   .741
1989;  21(2): 69-71

195:  Sharma SC, Kaur S.
Airborne contact dermatitis from Compositae plants in northern India.
Contact Dermatitis.    impact factor:   .741
1989;  21(1): 1-5

196:  Tanaka T, Moriwaki SI, Horio T.
Occupational dermatitis with simultaneous immediate and delayed allergy to chrysanthemum.
Contact Dermatitis.    impact factor:   .741
1987;  16(3): 152-4

197:  Davies MG, Kersey PJ.
Contact allergy to yarrow and dandelion.
Contact Dermatitis.    impact factor:   .741
1986;  14(4): 256-7

198:  Schmidt RJ.
When is a chrysanthemum dermatitis not a chrysanthemum dermatitis? The case for describing florists' chrysanthemums as Dendranthema cultivars.
Contact Dermatitis.    impact factor:   .741
1985;  13(2): 115-9

199:  Schmidt RJ, Kingston T.
Chrysanthemum dermatitis in South Wales; diagnosis by patch testing with feverfew (Tanacetum parthenium) extract.
Contact Dermatitis.    impact factor:   .741
1985;  13(2): 120-1

200:  Fernandez de Corres L.
Contact dermatitis from Frullania, Compositae and other plants.
Contact Dermatitis.    impact factor:   .741
1984;  11(2): 74-9

201:  Burry JN.
Compositae dermatitis in South Australia: contact dermatitis from Chrysanthemum parthenium.
Contact Dermatitis.    impact factor:   .741
1980;  6(6): 445

202:  Sugai T, Takahashi Y, Okuno F.
Chrysanthemum dermatitis in Japan.
Contact Dermatitis.    impact factor:   .741
1980;  6(2): 155

203:  Campolmi P, Sertoli A, Fabbri P, Panconesi E.
Alantolactone sensitivity in chrysanthemum contact dermatitis.
Contact Dermatitis.    impact factor:   .741
1978;  4(2): 93-102

204:  [No authors listed]
Alantolactone in chrysanthemum extract.
Contact Dermatitis.    impact factor:   .741
1978;  4(6): 368-9

205:  Hausen BM, Herrmann HD, Willuhn G.
The sensitizing capacity of Compositae plants. I. Occupational contact dermatitis from Arnica longifolia Eaton.
Contact Dermatitis.    impact factor:   .741
1978;  4(1): 3-10

206:  Calnan CD.
Dermatitis from helenium.
Contact Dermatitis.    impact factor:   .741
1978;  4(2): 115-6

207:  Bleumink E, Mitchell JC, Geismann TA, Towers GH.
Contact hypersensitivity to sesquiterpene lactones in Chyrsanthemum dermatitis.
Contact Dermatitis.    impact factor:   .741
1976;  2(2): 81-8

208:  Hausen BM, Schulz KH.
Experimental studies on the identification of chrysanthemum allergens.
Contact Dermatitis.    impact factor:   .741
1975;  1(4): 244-5

209:  Stich K, Halbwirth H, Wurst F, Forkmann G.
UDP-glucose: flavonol 7-O-glucosyltransferase activity in flower extracts of Chrysanthemum segetum.
Z Naturforsch [C].    impact factor:   .709
1997;  52(3-4): 153-8

210:  Kong LD, Cai Y, Huang WW, Cheng CH, Tan RX.
Inhibition of xanthine oxidase by some Chinese medicinal plants used to treat gout.
J Ethnopharmacol.    impact factor:   .687
2000;  73(1-2): 199-207

211:  Hooey DH.
Fundamental facts concerning malaria in the north-eastern Transvaal.
S Afr Med J.    impact factor:   .603
1974;  48(27): 1171-4

212:  Aberer W, Jarisch R.
[Chrysanthemum allergy]
Wien Klin Wochenschr.    impact factor:   .588
1987;  99(13): 466-8

213:  Luquet FM, Goursaud J, Gaudier B.
[Study of the pollution of human milk by residual insecticides]
Pathol Biol (Paris).    impact factor:   .546
1972;  20(3): 137-43

214:  Mertelik J, Mokra V.
Tomato spotted wilt virus in ornamental plants, vegetables and weeds in the Czech Republic.
Acta Virol.    impact factor:   .476
1998;  42(5): 347-51

215:  Morozov VA, Ilyinskii PO, Ilyin KV.
Chrysanthemum virus B: antibodies to structural protein in mammals and Mg2(+)-dependent reverse-transcriptase activity.
Acta Virol.    impact factor:   .476
1989;  33(6): 527-34

216:  McGovern TW, Barkley TM.
Botanical briefs: chrysanthemums--dendranthema spp.
Cutis.    impact factor:   .452
1999;  63(6): 319-20

217:  Fisher AA.
Perfume dermatitis. Part I. General considerations and testing procedures.
Cutis.    impact factor:   .452
1980;  26(5): 458-63, 477

218:  Wang HK, Xia Y, Yang ZY, Natschke SL, Lee KH.
Recent advances in the discovery and development of flavonoids and their analogues as antitumor and anti-HIV agents.
Adv Exp Med Biol.    impact factor:   .446
1998;  439: 191-225

219:  Gockeritz D.
[The etheric oil of Chrysanthemum balsamita L. var. balsamita]
Pharmazie.    impact factor:   .446
1968;  23(9): 515-8

220:  Lebedeva IV, Ivanovskaia MG, Gurinovich TI, Gottykh MB, Meldrais IaA, Shabarova ZA.
[Design of a universal biotin-containing oligonucleotide diagnostic kit for detecting viroid plant diseases]
Bioorg Khim.    impact factor:   .397
1993;  19(9): 894-904

221:  Aridogan BC, Baydar H, Kaya S, Demirci M, Ozbasar D, Mumcu E.
Antimicrobial activity and chemical composition of some essential oils.
Arch Pharm Res.    impact factor:   .382
2002;  25(6): 860-4

222:  Han S, Sung KH, Yim D, Lee S, Lee CK, Ha NJ, Kim K.
The effect of linarin on LPS-induced cytokine production and nitric oxide inhibition in murine macrophages cell line RAW264.7.
Arch Pharm Res.    impact factor:   .382
2002;  25(2): 170-7

223:  Jang DS, Yang MS, Ha TJ, Park KH.
Structural analogues of cumambrin B from the flower of Chrysanthemum boreale.
Arch Pharm Res.    impact factor:   .382
1998;  21(5): 591-4

224:  Nishigawa H, Miyata S, Oshima K, Sawayanagi T, Komoto A, Kuboyama T, Matsuda I, Tsuchizaki T, Namba S.
In planta expression of a protein encoded by the extrachromosomal DNA of a phytoplasma and related to geminivirus replication proteins.
Microbiology.    impact factor:   .338
2001;  147(Pt 2): 507-13

225:  Mou LY, Zhu LY, Lin ZY, Liang XT.
Stereoselective total synthesis of chrysanthemol.
J Asian Nat Prod Res.    impact factor:   .294
2001;  3(2): 103-16

226:  Jaspersen-Schib R, Theus L, Guirguis-Oeschger M, Gossweiler B, Meier-Abt PJ.
[Serious plant poisonings in Switzerland 1966-1994. Case analysis from the Swiss Toxicology Information Center]
Schweiz Med Wochenschr.    impact factor:   .258
1996;  126(25): 1085-98

227:  Takahashi M, Sato T.
[Studies on the components of Chrysanthemum morifolium Ramat. var. sinense Makino forma esculentum Makino. II. Components of one of brands "Mottenohoka" (author's transl)]
Yakugaku Zasshi.    impact factor:   .238
1979;  99(1): 90-1

228:  Takahashi M, Sato T, Miyoshi T.
[Studies on the components of the petals of Chrysanthemum morifolium Ramat. var. sinense Makino forma esculentum Makino (author's transl)]
Yakugaku Zasshi.    impact factor:   .238
1975;  95(5): 618-20

229:  Dunkel FV, Serugendo A, Breene WM, Sriharan S.
Influence of insecticidal plant materials used during storage on sensory attributes and instrumental hardness of dry edible beans (Phaseolus vulgaris L.).
Plant Foods Hum Nutr.    impact factor:   .133
1995;  48(1): 1-16

230:  Salehzadeh A, Jabbar A, Jennens L, Ley SV, Annadurai RS, Adams R, Strang RH.
The effects of phytochemical pesticides on the growth of cultured invertebrate and vertebrate cells.
Pest Manag Sci.    impact factor:   0
2002;  58(3): 268-76

231:  Ishida I, Tukahara M, Yoshioka M, Ogawa T, Kakitani M, Toguri T.
Production of anti-virus, viroid plants by genetic manipulations.
Pest Manag Sci.    impact factor:   0
2002;  58(11): 1132-6

232:  Carvalho SM, Heuvelink E, Cascais R, van Kooten O.
Effect of day and night temperature on internode and stem length in chrysanthemum: is everything explained by DIF?
Ann Bot (Lond).    impact factor:   0
2002;  90(1): 111-8

233:  Schouten RE, Carvalho SM, Heuvelink E, Van Kooten O.
Modelling of temperature-controlled internode elongation applied to chrysanthemum.
Ann Bot (Lond).    impact factor:   0
2002;  90(3): 353-9

234:  Wang T, Jiang H, Ji Y, Xu J.
[Anti-oxidation effect of water extract of Flos chrysanthemi on heart and brain in vivo and in vitro]
Zhong Yao Cai.    impact factor:   0
2001;  24(2): 122-4

235:  Dai M, Liu Q, Li D, Liu L.
[Research of material bases on antifebrile and hypotensive effects of flos chrysanthemi]
Zhong Yao Cai.    impact factor:   0
2001;  24(7): 505-6

236:  Jia Y, Li Y, Li J, Sun M.
Treatment of nonspecific chronic prostatitis with Qian Lie Xian Yan Suppository suppository in 104 cases.
J Tradit Chin Med.    impact factor:   0
2001;  21(2): 90-2

237:  de la Torre Morin F, Sanchez Machin I, Garcia Robaina JC, Fernandez-Caldas E, Sanchez Trivino M.
Clinical cross-reactivity between Artemisia vulgaris and Matricaria chamomilla (chamomile).
J Investig Allergol Clin Immunol.    impact factor:   0
2001;  11(2): 118-22

238:  Antonious GF, Snyder JC, Patel GA.
Pyrethrins and piperonyl butoxide residues on potato leaves and in soil under field conditions.
J Environ Sci Health B.    impact factor:   0
2001;  36(3): 261-71

239:  Devine GJ, Barber M, Denholm I.
Incidence and inheritance of resistance to METI-acaricides in European strains of the two-spotted spider mite (Tetranychus urticae) (Acari: Tetranychidae).
Pest Manag Sci.    impact factor:   0
2001;  57(5): 443-8

240:  Shahat AA, Apers S, Pieters L, Vlietinck AJ.
Isolation and complete NMR assignment of the numbing principle from Chrysanthemum morifolium.
Fitoterapia.    impact factor:   0
2001;  72(1): 89-91

241:  Bochu W, Hucheng Z, Yiyao L, Yi J, Sakanishi A.
The effects of alternative stress on the cell membrane deformability of chrysanthemum callus cells.
Colloids Surf B Biointerfaces.    impact factor:   0
2001;  20(4): 321-325

242:  Rivera SB, Swedlund BD, King GJ, Bell RN, Hussey CE Jr, Shattuck-Eidens DM, Wrobel WM, Peiser GD, Poulter CD.
Chrysanthemyl diphosphate synthase: isolation of the gene and characterization of the recombinant non-head-to-tail monoterpene synthase from Chrysanthemum cinerariaefolium.
Proc Natl Acad Sci U S A.    impact factor:   0
2001;  98(8): 4373-8

243:  de la Taille A, Hayek OR, Burchardt M, Burchardt T, Katz AE.
Role of herbal compounds (PC-SPES) in hormone-refractory prostate cancer: two case reports.
J Altern Complement Med.    impact factor:   0
2000;  6(5): 449-51

244:  Khallouki F, Hmamouchi M, Younos C, Soulimani R, Bessiere JM, Essassi EM.
Antibacterial and molluscicidal activities of the essential oil of Chrysanthemum viscidehirtum.
Fitoterapia.    impact factor:   0
2000;  71(5): 544-6

245:  Hitmi A, Coudret A, Barthomeuf C.
The production of pyrethrins by plant cell and tissue cultures of Chrysanthemum cinerariaefolium and Tagetes species.
Crit Rev Biochem Mol Biol.    impact factor:   0
2000;  35(5): 317-37

246:  Singhal V, Reddy BS.
Common contact sensitizers in Delhi.
J Dermatol.    impact factor:   0
2000;  27(7): 440-5

247:  Sakai A, Matsumoto T, Hirai D, Niino T.
Newly developed encapsulation-dehydration protocol for plantcryopreservation.
Cryo Letters.    impact factor:   0
2000;  21(1): 53-62

248:  Gins VK, Kolesnikov MP, Kononkov PF, Trishin ME, Gins MS.
[Oxyanthraquinones and flavonoids from garland chrysanthenum]
Prikl Biokhim Mikrobiol.    impact factor:   0
2000;  36(3): 344-53

249:  Khallouki F, Hmamouchi M, Younos C, Soulimani R, Essassi EM.
A new flavonoid from the aerial parts of Chrysanthemum viscidehirtum.
Fitoterapia.    impact factor:   0
2000;  71(4): 413-6

250:  de la Pena M, Navarro B, Flores R.
Mapping the molecular determinant of pathogenicity in a hammerhead viroid: a tetraloop within the in vivo branched RNA conformation.
Proc Natl Acad Sci U S A.    impact factor:   0
1999;  96(17): 9960-5

251:  Li Z, Chen Z, Liao L, Lin S.
[Determination of chlorogenic acid in chrysanthemum morifolium Ramat.flower]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1999;  24(6): 329-30, 381

252:  Mbaria JM, Maitho TE, Mitema ES, Muchiri DJ.
Comparative efficacy of pyrethrum marc with albendazole against sheep gastrointestinal nematodes.
Trop Anim Health Prod.    impact factor:   0
1998;  30(1): 17-22

253:  Wassenegger M.
Application of PCR to transgenic plants.
Methods Mol Biol.    impact factor:   0
1998;  92: 153-64

254:  Navarro B, Flores R.
Chrysanthemum chlorotic mottle viroid: unusual structural properties of a subgroup of self-cleaving viroids with hammerhead ribozymes.
Proc Natl Acad Sci U S A.    impact factor:   0
1997;  94(21): 11262-7

255:  Raj SK, Chandra G, Singh BP.
Some Indian strains of cucumber mosaic virus (CMV) lacking satellite RNA.
Indian J Exp Biol.    impact factor:   0
1997;  35(10): 1128-31

256:  Chen SH, Sun YP, Chen XS.
[Effect of jiangtangkang on blood glucose, sensitivity of insulin and blood viscosity in non-insulin dependent diabetes mellitus]
Zhongguo Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1997;  17(11): 666-8

257:  Zhao C, Ruan H, Lei Y, Wu Y, Voelter W, Jung A, Schick M.
[Inhibition of the development of Plasmodium yoelii in exoerythrocytic stage in rodents (rats) with Chrysanthemum morifolium]
J Tongji Med Univ.    impact factor:   0
1996;  16(4): 200-2

258:  Zhao C, Wu Y, Lei Y, Ruan H, Voelter W, Jung A, Schick M.
[Effect of alcohol extracts of Chrysanthemum morifolium on Plasmodium falciparum in vitro]
J Tongji Med Univ.    impact factor:   0
1996;  16(4): 203-4

259:  Yasukawa K, Akihisa T, Oinuma H, Kaminaga T, Kanno H, Kasahara Y, Tamura T, Kumaki K, Yamanouchi S, Takido M.
Inhibitory effect of taraxastane-type triterpenes on tumor promotion by 12-O-tetradecanoylphorbol-13-acetate in two-stage carcinogenesis in mouse skin.
Oncology.    impact factor:   0
1996;  53(4): 341-4

260:  Courtney-Gutterson N, Napoli C, Lemieux C, Morgan A, Firoozabady E, Robinson KE.
Modification of flower color in florist's chrysanthemum: production of a white-flowering variety through molecular genetics.
Biotechnology (N Y).    impact factor:   0
1994;  12(3): 268-71

261:  Archibald BA, Solomon KR, Stephenson GR.
Survey of pesticide use by Ontario greenhouse chrysanthemum producers.
Bull Environ Contam Toxicol.    impact factor:   0
1994;  53(4): 486-92

262:  Yu XY.
[A prospective clinical study on reversion of 200 precancerous patients with hua-sheng-ping]
Zhongguo Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1993;  13(3): 147-9, 132

263:  Liu XL, Liu DP, Shang ZJ.
[Herbological research on chrysanthemum, a traditional Chinese drug] (Chi).]
Zhonghua Yi Shi Za Zhi.    impact factor:   0
1993;  23(2): 114-7

264:  Chen HZ, Chen J, Zhang GZ, Zhang SM.
[A preliminary study on benthyloid wasp control for chrysanthemum stem borer]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1993;  18(12): 716-7, 762

265:  Yu DQ, Xie FZ, He WY, Liang XT.
[Application of 2D NMR techniques in the structure determination of chrysanthetriol]
Yao Xue Xue Bao.    impact factor:   0
1992;  27(3): 191-6

266:  Hu S, Cai W, Ye J, Qian Z, Sun Z.
Influence of medicinal herbs on phagocytosis by bovine neutrophils.
Zentralbl Veterinarmed A.    impact factor:   0
1992;  39(8): 593-9

267:  Huang W, Mang Y, Huang P.
[Granule-making technology for preparing luohanguo chrysanthemum granule medicine with orthogonal design]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1992;  17(7): 412-3, 445-6

268:  Ueda A, Tochigi T, Ueda T, Aoyama K, Manda F.
Immediate type of allergy in statis growers.
J Allergy Clin Immunol.    impact factor:   0
1992;  90(5): 742-8

269:  Gromek D, Kisiel W, Stojakowska A, Kohlmunzer S.
Attempts of chemical standardizing of Chrysanthemum parthenium as a prospective antimigraine drug.
Pol J Pharmacol Pharm.    impact factor:   0
1991;  43(3): 213-7

270:  Meldrais IaA, Line IE, Ivanova MN, Vinkele RA, Druka AIa, Gurinovich TI.
[Cloning of Chrysanthium stund virion cDNA in pUC19 plasmid and the use of cloned cDNA for detecting the virion]
Mol Biol (Mosk).    impact factor:   0
1991;  25(5): 1301-7

271:  Li XP.
[Experimental study on anti-senility of the 4 famous Chinese herbs produced in Huaiqing area]
Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1991;  11(8): 486-7, 454

272:  Langner A, Wolska H, Szmurlo A, Fraczykowska M.
[Treatment of head pediculosis. Comparative studies of a shampoo containing 0,33% Pyrethrum extract and shampoo containing 1% malathion]
Przegl Dermatol.    impact factor:   0
1990;  77(2): 148-50

273:  Chen Z.
[Clinical study of 96 cases with chronic hepatitis B treated with jiedu yanggan gao by a double-blind method]
Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1990;  10(2): 71-4, 67

274:  Liu L, Zhou MY, Jiang LZ.
[Immuno-electron microscopical studies on the retinal basement membrane of chick embryo]
Shi Yan Sheng Wu Xue Bao.    impact factor:   0
1990;  23(1): 57-69

275:  Klunker R.
[The appearance of insecticide resistance in Blattella germanica in the German Democratic Republic]
Angew Parasitol.    impact factor:   0
1990;  31(2): 79-93

276:  Yang DJ.
[Tinnitus treated with combined traditional Chinese medicine and Western medicine]
Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1989;  9(5): 270-1, 259-60

277:  Wellde BT, Waema D, Chumo DA, Reardon MJ, Oloo F, Njogu AR, Opiyo EA, Mugutu S.
Review of tsetse control measures taken in the Lambwe Valley in 1980-1984.
Ann Trop Med Parasitol.    impact factor:   0
1989;  83 Suppl 1: 119-25

278:  Muller P.
[Insecticide resistance in the Musca domestica populations of the GDR 1976-1988]
Angew Parasitol.    impact factor:   0
1989;  30(2): 145-54

279:  [No authors listed]
Migraine.
CMAJ.    impact factor:   0
1988;  138(12): 1089-91

280:  Hausen BM, Oestmann G.
[The incidence of occupationally-induced allergic skin diseases in a large flower market]
Derm Beruf Umwelt.    impact factor:   0
1988;  36(4): 117-24

281:  Kurtak D, Jamnback H, Meyer R, Ocran M, Renaud P.
Evaluation of larvicides for the control of Simulium damnosum s.l. (Diptera: Simuliidae) in West Africa.
J Am Mosq Control Assoc.    impact factor:   0
1987;  3(2): 201-10

282:  Kato T, Noguchi K, Miyamoto Y, Suekawa M, Aburada M, Hosoya E, Sakanashi M.
Effects of Chrysanthemum indicum Linn. on coronary, vertebral, renal and aortic blood flows of the anesthetized dog.
Arch Int Pharmacodyn Ther.    impact factor:   0
1987;  285(2): 288-300

283:  Zhou YL.
[Chrysanthemum morifolium in the treatment of hypertension]
Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1987;  7(1): 18-20, 4

284:  Morozov VA, Il'inskii PO, Il'in KV.
[Antibodies to the structural proteins of the chrysanthemum B-virus in normal human plasma]
Vopr Virusol.    impact factor:   0
1987;  32(5): 600-4

285:  Chen ZN, Xu PJ.
[Structural determination of yejuhua lactone, isolated from Chrysanthemum indicum L]
Yao Xue Xue Bao.    impact factor:   0
1987;  22(1): 67-9

286:  Xu LX, Liu AR.
[Coulometric titration of acaciin in Chrysanthemum indicum]
Yao Xue Xue Bao.    impact factor:   0
1987;  22(4): 318-20

287:  Yu DQ, Xie FZ.
[Studies on the chemical constituents of Chrysanthemum indicum L.]
Yao Xue Xue Bao.    impact factor:   0
1987;  22(11): 837-40

288:  Kato T, Noguchi K, Sakanashi M, Miyamoto Y, Suekawa M, Aburada M, Hosoya E.
Effects of the water extract of Chrysanthemum indicum Linn. on coronary and systemic hemodynamics in the dog.
Arch Int Pharmacodyn Ther.    impact factor:   0
1986;  280(2): 241-53

289:  Diener C, Schlenvoigt G, Jager L, Prater E, Schubert H.
Allergens of chrysanthemum pollen.
Allergol Immunopathol (Madr).    impact factor:   0
1986;  14(1): 49-53

290:  Dai B.
[Pharmacognostical studies on the Chinese drug xinjiang mu-xiang]
Zhong Yao Tong Bao.    impact factor:   0
1986;  11(2): 14-7

291:  Xu SX.
[Anti-inflammatory active constituents of Carthamus tinctorius (2)]
Zhong Yao Tong Bao.    impact factor:   0
1986;  11(2): 42-4

292:  Liu SF.
[Preparation and clinical use of the micro-capsule of oil of Atractylodiae chinensis]
Zhong Yao Tong Bao.    impact factor:   0
1986;  11(11): 58-61

293:  Luo JP, Lou ZC.
[Morphological and histological studies of the Chinese drug Bai-jiang-cao. III. Drugs derived from genera Sonchus, Lactuca and Ixeris, family Compositae]
Yao Xue Xue Bao.    impact factor:   0
1985;  20(9): 666-81

294:  Fan Y.
[Study on Chrysanthemum Longicora beetle Phytoecia rufiventris]
Zhong Yao Tong Bao.    impact factor:   0
1985;  10(5): 6-7

295:  Huang XS.
[TLC densitometry of chlorogenic acid in granules of Artemisia capillaris in the treatment of jaundice]
Zhong Yao Tong Bao.    impact factor:   0
1985;  10(10): 30-2

296:  Addo HA, Sharma SC, Ferguson J, Johnson BE, Frain-Bell W.
A study of compositae plant extract reactions in photosensitivity dermatitis.
Photodermatol.    impact factor:   0
1985;  2(2): 68-79

297:  Iscan M, Arinc E, Vural N, Iscan MY.
In vivo effects of 3-methylcholanthrene, phenobarbital, pyrethrum and 2,4,5-T isooctylester on liver, lung and kidney microsomal mixed-function oxidase system of guinea-pig: a comparative study.
Comp Biochem Physiol C.    impact factor:   0
1984;  77(1): 177-90

298:  Chen KY, Wen SF, Zhi ZJ, Shao JS.
Preliminary observation of 131Cs distribution in experimental acute myocardial infarction and coronary insufficiency treated with root of salvia miltiorrhiza, flower of Chrysanthemum morifolium and Chrysanthemum indicum.
J Tradit Chin Med.    impact factor:   0
1983;  3(4): 265-70

299:  Muller P.
[Effect of trichlophenidine on the housefly Musca domestica and the development of a trichlophenidine resistance in East Germany]
Angew Parasitol.    impact factor:   0
1983;  24(3): 156-65

300:  Svanasbakken K, von Hanno T, Kollbaer R, Savonsnick R, Skagseth PA, Skjerven O.
[Treatment of head lice with Rinsoderm Shampoo. Results from a multicenter study]
Tidsskr Nor Laegeforen.    impact factor:   0
1983;  103(28): 1936-7

301:  Casida JE, Gammon DW, Glickman AH, Lawrence LJ.
Mechanisms of selective action of pyrethroid insecticides.
Annu Rev Pharmacol Toxicol.    impact factor:   0
1983;  23: 413-38

302:  Ding XC.
[Toxicological studies on a synthetic insecticide-4(methyloxymethyl) benzyl chrysanthemum-monocarboxylate]
Zhonghua Yu Fang Yi Xue Za Zhi.    impact factor:   0
1983;  17(1): 8-10

303:  Khera KS, Whalen C, Angers G.
Teratogenicity study on pyrethrum and rotenone (natural origin) and ronnel in pregnant rats.
J Toxicol Environ Health.    impact factor:   0
1982;  10(1): 111-9

304:  Shnaps Y, Gross M, Trau H.
Erythema multiforme due to pyrethrum.
Clin Pediatr (Phila).    impact factor:   0
1981;  20(1): 68

305:  Li YO.
[Protective effect of Chrysanthemum indicum L extract (CI-2) on myocardial injury in cultured neonatal rat heart cells deprived of oxygen and glucose]
Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1981;  1(2): 93-7

306:  Hausen BM.
[Occupational contact allergy to feverfew Tanacetum parthenium (L.) Schultz-Bip.; Asteraceae]
Derm Beruf Umwelt.    impact factor:   0
1981;  29(1): 18-21

307:  Pinchin R, de Oliveira Filho AM, Pereira AC.
The flushing-out activity of pyrethrum and synthetic pyrethroids on Panstrongylus megistus, a vector of Chagas's disease.
Trans R Soc Trop Med Hyg.    impact factor:   0
1980;  74(6): 801-3

308:  Mehl R, Wickstrom E.
[Fight against head lice]
Tidsskr Nor Laegeforen.    impact factor:   0
1980;  100(10): 578-9

309:  El-Hissy FT, Abdel-Hafez SI, Abdel-Kader MI.
Rhizosphere fungi of five plants in Egypt.
Z Allg Mikrobiol.    impact factor:   0
1980;  20(3): 177-84

310:  Hoffman G.
[Control of the brown dog tick Rhipicephalus sanguineus L. in houses and stables]
Berl Munch Tierarztl Wochenschr.    impact factor:   0
1979;  92(23): 477-9

311:  Hausen BM.
The sensitizing capacity of Compositae plants. III. Test results and cross-reactions in Compositae-sensitive patients.
Dermatologica.    impact factor:   0
1979;  159(1): 1-11

312:  Hausen BM, Schulz KH.
[Polyvalent contact allergy in a florist]
Derm Beruf Umwelt.    impact factor:   0
1978;  26(5): 175-6

313:  Schmiedekampf G, Schauder S, Berger H.
[Actinic reticuloid in a florist]
Derm Beruf Umwelt.    impact factor:   0
1978;  26(3): 95-6

314:  Merchant RE, Low FN.
Identification of challenged subarachnoid free cells.
Am J Anat.    impact factor:   0
1977;  148(1): 143-8

315:  Atal CK, Dhar KL, Gupta OP, Gupta SC, Saxena BP, Koul O, Gupta SC.
Synergists for pyrethrum : synthetic analogues of some piper compounds.
Indian J Exp Biol.    impact factor:   0
1977;  15(12): 1230-2

316:  Law MW, Bontoyan WR, Looker JB.
Gas-liquid chromatography and infrared spectroscopy of resmethrin in nonaqueous aerosols.
J Assoc Off Anal Chem.    impact factor:   0
1976;  59(4): 745-7

317:  Saxena SC, Gohain R.
Susceptibility to insecticides of Lasioderma serricorne (F.) (Coleoptera anobiidae) grown on vitamin-deficient diets.
Arch Int Physiol Biochim.    impact factor:   0
1976;  84(1): 53-61

318:  Fernandez de Corres L, Corrales Torres JL.
[Contact dermatitis by Frullania dilatata (L) Dum]
Allergol Immunopathol (Madr).    impact factor:   0
1976;  4(4): 229-34

319:  Vashkov VI, Tsetlin VM, Volkova AP, Zubova GM, Zhuk EB.
[Insecticidal properties of sumitrin]
Zh Mikrobiol Epidemiol Immunobiol.    impact factor:   0
1976;  (6): 111-5

320:  Karel AK, Saxena SC.
Investigation on the acute toxic effect of pyrethrum on the blood glucose and of glucose administration on the acute pyrethrum toxicity in Meriones hurrianae Jerdon (Rodentia).
Arch Int Physiol Biochim.    impact factor:   0
1975;  83(1): 19-25

321:  Bessonova IV, Pavlova SP, Zuk EB, Kamennov NA, Cetlin VM.
[Search for insecticide synergists in aerosol form]
Angew Parasitol.    impact factor:   0
1975;  16(3): 147-52

322:  Kuroume T, Todokoro M, Tomidokoro H, Kanbe Y, Matsumura T.
Chrysanthemum pollinosis in Japan.
Int Arch Allergy Appl Immunol.    impact factor:   0
1975;  48(6): 800-11

323:  Rajan U.
Treatment of head lice infestation with benzyl benzoate and pyrethrum.
Singapore Med J.    impact factor:   0
1975;  16(4): 297-300

324:  Marking LL, Mauck WL.
Toxicity of paired mixtures of candidate forest insecticides to rainbow trout.
Bull Environ Contam Toxicol.    impact factor:   0
1975;  13(5): 518-23

325:  George DA, McDonough LM.
Microdetermination of bioethanomethrin.
J Assoc Off Anal Chem.    impact factor:   0
1975;  58(4): 781-4

326:  Simonaitis RA, Cail RS.
Gas-liquid chromatographic determination of resmethrin in corn, cornmeal, flour, and wheat.
J Assoc Off Anal Chem.    impact factor:   0
1975;  58(5): 1032-6

327:  Cawley BM, Sullivan WN, Schechter MS, McGuire JU.
Desirability of three synthetic pyrethroid aerosols for aircraft disinsection.
Bull World Health Organ.    impact factor:   0
1974;  51(5): 537-40

328:  Kawano Y, Yanagihara KH, Bevenue A.
Analytical studies of pyrethrin formulations by gas chromatography. 3. Analytical results on insecticidally active components of pyrethrins from various world sources.
J Chromatogr.    impact factor:   0
1974;  90(1): 119-28

329:  Nair CP, Mamen ML.
Field investigation on effectiveness of pyrosenes oil, Diazinen and Malathion against Culex fatigans larvae.
Indian J Public Health.    impact factor:   0
1973;  17(1): 29-32

330:  Inder Singh K.
Evaluation of insecticides against four strains of the house fly, Musca domestica L. (Diptera: Muscidae) from West Malaysia.
Southeast Asian J Trop Med Public Health.    impact factor:   0
1973;  4(4): 554-9

331:  Gwadz RW, Chernin E.
Escape of infective larvae of Brugia pahangi from Aedes aegypti into water.
Trans R Soc Trop Med Hyg.    impact factor:   0
1973;  67(6): 814-8

332:  Smith A, Obudho WO, Esozed S, Myamba J.
Louvre-trap hut assessments of mosquito coils, with a high pyrethrin I-pyrethrin II ratio, against Anopheles gambiae Giles, Culex fatigans Wied. and Mansoni uniformis (Theo.).
East Afr Med J.    impact factor:   0
1973;  50(7): 352-61

333:  Kochhar RK, Dixit SR, Somaya CI.
Repellency of indigenous "smoke coils" to mosquitoes.
Indian J Public Health.    impact factor:   0
1973;  17(3): 109-12

334:  Rickett FE.
Preparative scale separation of pyrethrins by liquid-liquid partition chromatography.
J Chromatogr.    impact factor:   0
1972;  66(2): 356-60

335:  Kawano Y, Bevenue A.
Analytical studies of pyrethrin formulations by gas chromatography. II. Isolation of the pyrethrins from water-based formulations.
J Chromatogr.    impact factor:   0
1972;  72(1): 51-9

336:  Quelennec G.
[Field trial of new insecticide formulations of OMS-708, resmethrin, and OMS-1155 against blackfly larvae]
Bull World Health Organ.    impact factor:   0
1972;  46(2): 227-31

337:  Meinen VJ.
Gas-liquid chromatographic determination of d-trans-allethrin.
J Assoc Off Anal Chem.    impact factor:   0
1972;  55(5): 907-12

338:  Singh KI, Hooi CW, Ha LS.
Insecticides in dry sugar baits for the control of the house-fly, Musca domestica L.
Southeast Asian J Trop Med Public Health.    impact factor:   0
1971;  2(2): 244-8

339:  Yamamoto I, Elliott M, Casida JE.
The metabolic fate of pyrethrin I, pyrethrin II, and allethrin.
Bull World Health Organ.    impact factor:   0
1971;  44(1): 347-8

340:  Narahashi T.
Mode of action of pyrethroids.
Bull World Health Organ.    impact factor:   0
1971;  44(1): 337-45

341:  Nishizawa Y.
Development of new synthetic pyrethroids.
Bull World Health Organ.    impact factor:   0
1971;  44(1): 325-36

342:  Elliott M.
The relationship between the structure and the activity of pyrethroids.
Bull World Health Organ.    impact factor:   0
1971;  44(1): 315-24

343:  Maggiorelli E, Gangemi G.
[Quantitative gas chromatographic determination of pyrethrin and piperonylbutoxide in pyrenone and its kerosene diluted solutions]
Boll Chim Farm.    impact factor:   0
1970;  109(6): 380-4

344:  Lutz-Ostertag Y, Lutz H.
[Teratogenic and sterilizing action of synergistic pyrethrines on the chick embryo]
C R Seances Soc Biol Fil.    impact factor:   0
1970;  164(4): 777-9

345:  Muirhead-Thomson RC.
The potentiating effect of pyrethrins and pyrethroids on the action of organophosphorus larvicides in Simulium control.
Trans R Soc Trop Med Hyg.    impact factor:   0
1970;  64(6): 895-906

346:  Doskotch RW, Beal JL.
The isolation and identification of the numbing principle in Chrysanthemum anethifolium.
Lloydia.    impact factor:   0
1970;  33(3): 393-4

347:  Hadaway AB, Barlow F, Grose JE, Turner CR, Flower LS.
Evaluation of compounds for insecticidal activity on adult mosquitos. 5. Toxicity to adult mosquitos and residual properties of some pyrethroids.
Bull World Health Organ.    impact factor:   0
1970;  42(3): 387-98

348:  Bevenue A, Kawano Y, DeLano F.
Analytical studies of pyrethrin formulations by gas chromatography.
J Chromatogr.    impact factor:   0
1970;  50(1): 49-58

349:  Orzechowski G.
[Insecticides from nature or from the chemical industry]
Med Monatsschr.    impact factor:   0
1969;  23(12): 521-5

350:  Irving NS, Lee CW, Parker JD, Beesley JS.
Aircraft applications of insecticides in East Africa. 18. Attempted control of Glossina pallidipes Aust. with pyrethrum in dense thicket.
Bull Entomol Res.    impact factor:   0
1969;  59(2): 299-305

351:  Vashkov VI, Vinogradskaia ON, Volkov IuP, Volkova AP, Sidorova MV, Starkov AV.
[Studies in the field of pyrethrins and related compounds. VI. Synthesis of pypethrin, its insecticidal and toxic properties]
Zh Mikrobiol Epidemiol Immunobiol.    impact factor:   0
1967;  44(4): 89-94

352:  Schneider EF.
Conversion of the plant growth retardant (2-chloroethyl)trimethylammonium chloride to choline in shoots of chrysanthemum and barley.
Can J Biochem.    impact factor:   0
1967;  45(3): 395-400

353:  Frantsevich LI, Loskot VM.
[Kinetics of the action of insecticides subjected to detoxication]
Farmakol Toksikol.    impact factor:   0
1967;  30(1): 105-9

354:  Sudershan P, Naidu MB.
Effect of insecticides & insecticide treated cockroach blood on the heart beat of Periplaneta americana L.
Indian J Exp Biol.    impact factor:   0
1967;  5(4): 215-8

 

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