Ingredient ID 210 
Chinese Pronunciation LAIFU 
English Name Radish Root  
Latin Name Radix Raphani  
Aliases LuoBai
Cancers Stomach
Identified Compounds

order by name

1. Ferulic Acid

   C10H10O4   194.19

2. Gentisic Acid

   C7H6O4   154.12

3. Raphanusin

   C27H31O15   595.53

Recipes that contain
  1. 23      ShuanWuWeiAiTang

Available references (order by impact factor):

1:  Bonnett HT Jr, Newcomb EH.
Polyribosomes and cisternal accumulations in root cells of radish.
J Cell Biol.    impact factor:   12.88
1965;  27(2): 423-32

2:  Laskowski MJ, Williams ME, Nusbaum HC, Sussex IM.
Formation of lateral root meristems is a two-stage process.
Development.    impact factor:   10.088
1995;  121(10): 3303-10

3:  Lloyd CW, Wells B.
Microtubules are at the tips of root hairs and form helical patterns corresponding to inner wall fibrils.
J Cell Sci.    impact factor:   6.044
1985;  75: 225-38

4:  Fant F, Vranken W, Broekaert W, Borremans F.
Determination of the three-dimensional solution structure of Raphanus sativus antifungal protein 1 by 1H NMR.
J Mol Biol.    impact factor:   5.501
1998;  279(1): 257-70

5:  Karlsson M, Johansson I, Bush M, McCann MC, Maurel C, Larsson C, Kjellbom P.
An abundant TIP expressed in mature highly vacuolated cells.
Plant J.    impact factor:   5.09
2000;  21(1): 83-90

6:  Gambale F, Cantu AM, Carpaneto A, Keller BU.
Fast and slow activation of voltage-dependent ion channels in radish vacuoles.
Biophys J.    impact factor:   4.58
1993;  65(5): 1837-43

7:  Yuasa K, Maeshima M.
Purification, properties, and molecular cloning of a novel Ca(2+)-binding protein in radish vacuoles.
Plant Physiol.    impact factor:   4.434
2000;  124(3): 1069-78

8:  Kobayashi M, Nakagawa H, Asaka T, Matoh T.
Borate-rhamnogalacturonan II bonding reinforced by Ca2+ retains pectic polysaccharides in higher-plant cell walls
Plant Physiol.    impact factor:   4.434
1999;  119(1): 199-204

9:  Misawa H, Tsumuraya Y, Kaneko Y, Hashimoto Y.
alpha-L-fucosyltransferases from radish primary roots.
Plant Physiol.    impact factor:   4.434
1996;  110(2): 665-73

10:  Morigasaki S, Jin T, Wada K.
Comparative Studies on Ferredoxin-NADP+ Oxidoreductase Isoenzymes Derived from Different Organs by Antibodies Specific for the Radish Root- and Leaf-Enzymes.
Plant Physiol.    impact factor:   4.434
1993;  103(2): 435-440

11:  Valtschanoff JG, Weinberg RJ, Rustioni A.
Peripheral injury and anterograde transport of wheat germ agglutinin-horse radish peroxidase to the spinal cord.
Neuroscience.    impact factor:   3.924
1992;  50(3): 685-96

12:  Raaijmakers JM, Bitter W, Punte HL, Bakker PA, Weisbeek PJ, Schippers B.
Siderophore receptor PupA as a marker to monitor wild-type Pseudomonas putida WCS358 in natural environments.
Appl Environ Microbiol.    impact factor:   3.541
1994;  60(4): 1184-90

13:  Dekkers LC, van der Bij AJ, Mulders IH, Phoelich CC, Wentwoord RA, Glandorf DC, Wijffelman CA, Lugtenberg BJ.
Role of the O-antigen of lipopolysaccharide, and possible roles of growth rate and of NADH:ubiquinone oxidoreductase (nuo) in competitive tomato root-tip colonization by Pseudomonas fluorescens WCS365.
Mol Plant Microbe Interact.    impact factor:   3.331
1998;  11(8): 763-71

14:  Dekkers LC, Bloemendaal CJ, de Weger LA, Wijffelman CA, Spaink HP, Lugtenberg BJ.
A two-component system plays an important role in the root-colonizing ability of Pseudomonas fluorescens strain WCS365.
Mol Plant Microbe Interact.    impact factor:   3.331
1998;  11(1): 45-56

15:  Van Wees SC, Pieterse CM, Trijssenaar A, Van 't Westende YA, Hartog F, Van Loon LC.
Differential induction of systemic resistance in Arabidopsis by biocontrol bacteria.
Mol Plant Microbe Interact.    impact factor:   3.331
1997;  10(6): 716-24

16:  Simons M, van der Bij AJ, Brand I, de Weger LA, Wijffelman CA, Lugtenberg BJ.
Gnotobiotic system for studying rhizosphere colonization by plant growth-promoting Pseudomonas bacteria.
Mol Plant Microbe Interact.    impact factor:   3.331
1996;  9(7): 600-7

17:  Yuasa K, Maeshima M.
Organ specificity of a vacuolar Ca2+-binding protein RVCaB in radish and its expression under Ca2+-deficient conditions.
Plant Mol Biol.    impact factor:   3.102
2001;  47(5): 633-40

18:  Krishnasamy S, Makaroff CA.
Organ-specific reduction in the abundance of a mitochondrial protein accompanies fertility restoration in cytoplasmic male-sterile radish.
Plant Mol Biol.    impact factor:   3.102
1994;  26(3): 935-46

19:  Seagull RW, Heath IB.
The effects of tannic acid on the in vivo preservation of microfilaments.
Eur J Cell Biol.    impact factor:   3.043
1979;  20(2): 184-8

20:  Maddison J, Lyons T, Plochl M, Barnes J.
Hydroponically cultivated radish fed L-galactono-1,4-lactone exhibit increased tolerance to ozone.
Planta.    impact factor:   2.977
2002;  214(3): 383-91

21:  Manevski A, Bardet C, Tremousaygue D, Lescure B.
Characterization and properties of heteromeric plant protein complexes that interact with tef cis-acting elements in both RNA polymerase II-dependent promoters and rDNA spacer sequences.
Mol Gen Genet.    impact factor:   2.539
1999;  261(6): 892-900

22:  Chou SF, Jacobs LW, Penner D, Tiedje JM.
Absence of plant uptake and translocation of polybrominated biphenyls (PBBs).
Environ Health Perspect.    impact factor:   2.469
1978;  23: 9-12

23:  Suga S, Komatsu S, Maeshima M.
Aquaporin isoforms responsive to salt and water stresses and phytohormones in radish seedlings.
Plant Cell Physiol.    impact factor:   2.259
2002;  43(10): 1229-37

24:  Rouhier H, Usuda H.
Spatial and temporal distribution of sucrose synthase in the radish hypocotyl in relation to thickening growth.
Plant Cell Physiol.    impact factor:   2.259
2001;  42(6): 583-93

25:  Hara M, Fujii Y, Sasada Y, Kuboi T.
CDNA cloning of radish (Raphanus sativus) myrosinase and tissue-specific expression in root.
Plant Cell Physiol.    impact factor:   2.259
2000;  41(10): 1102-9

26:  Higuchi T, Suga S, Tsuchiya T, Hisada H, Morishima S, Okada Y, Maeshima M.
Molecular cloning, water channel activity and tissue specific expression of two isoforms of radish vacuolar aquaporin.
Plant Cell Physiol.    impact factor:   2.259
1998;  39(9): 905-13

27:  Yano A, Hidaka E, Fujiwara K, Iimoto M.
Induction of primary root curvature in radish seedlings in a static magnetic field.
Bioelectromagnetics.    impact factor:   1.919
2001;  22(3): 194-9

28:  Davies MS.
Effects of 60 Hz electromagnetic fields on early growth in three plant species and a replication of previous results.
Bioelectromagnetics.    impact factor:   1.919
1996;  17(2): 154-61

29:  Chiapusio G, Pellissier F.
Methodological setup to study allelochemical translocation in radish seedlings.
J Chem Ecol.    impact factor:   1.653
2001;  27(8): 1701-12

30:  Sakurai MH, Kiyohara H, Matsumoto T, Tsumuraya Y, Hashimoto Y, Yamada H.
Characterization of antigenic epitopes in anti-ulcer pectic polysaccharides from Bupleurum falcatum L. using several carbohydrases.
Carbohydr Res.    impact factor:   1.606
1998;  311(4): 219-29

31:  Shanker K, Mishra S, Srivastava S, Srivastava R, Dass S, Prakash S, Srivastava MM.
Study of mercury-selenium (Hg-Se) interactions and their impact on Hg uptake by the radish (Raphanus sativus) plant.
Food Chem Toxicol.    impact factor:   1.243
1996;  34(9): 883-6

32:  Harrison RM, Chirgawi MB.
The assessment of air and soil as contributors of some trace metals to vegetable plants. I. Use of a filtered air growth cabinet.
Sci Total Environ.    impact factor:   1.126
1989;  83(1-2): 13-34

33:  Vitoria AP, Lea PJ, Azevedo RA.
Antioxidant enzymes responses to cadmium in radish tissues.
Phytochemistry.    impact factor:   1.106
2001;  57(5): 701-10

34:  Lee MY, Kim SS.
Characteristics of six isoperoxidases from Korean radish root.
Phytochemistry.    impact factor:   1.106
1994;  35(2): 287-90

35:  Kleier C, Farnsworth B, Winner W.
Photosynthesis and biomass allocation of radish cv. "Cherry Belle" in response to root temperature and ozone.
Environ Pollut.    impact factor:   1.078
2001;  111(1): 127-33

36:  Carrillo A, Puente ME, Bashan Y.
Application of diluted chlorine dioxide to radish and lettuce nurseries insignificantly reduced plant development.
Ecotoxicol Environ Saf.    impact factor:   1.06
1996;  35(1): 57-66

37:  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

38:  Ozawa Y, Uda Y, Matsuoka H, Abe M, Kawakishi S, Osawa T.
Occurrence of stereoisomers of 1-(2'-pyrrolidinethione-3'-yl)- 1,2,3,4-tetrahydro-beta-carboline-3-carboxylic acid in fermented radish roots and their different mutagenic properties.
Biosci Biotechnol Biochem.    impact factor:   1.039
1999;  63(1): 216-9

39:  Takata R, Miyamoto Y, Honjoh K, Soeda T, Sakamoto J, Miyamoto T, Hatano S.
Antibody fragments as inhibitors of Japanese radish acid phosphatase.
Biosci Biotechnol Biochem.    impact factor:   1.039
1998;  62(6): 1041-7

40:  Hara M, Eto H, Kuboi T.
Tissue printing for myrosinase activity in roots of turnip and Japanese radish and horseradish: a technique for localizing myrosinases.
Plant Sci.    impact factor:   1.015
2001;  160(3): 425-431

41:  Hui E, Webster JM.
Influence of insect larvae and seedling roots on the host-finding ability of Steinernema feltiae (Nematoda: Steinernematidae).
J Invertebr Pathol.    impact factor:   .96
2000;  75(2): 152-62

42:  Imanaka M, Kadota M, Kumashiro K, Mori T.
Identification of phylloquinone (vitamin K1) as an unknown peak in electron capture detection gas chromatograms of pyrethroid insecticide residues.
J AOAC Int.    impact factor:   .95
1996;  79(2): 538-43

43:  Moon YH, Chae S, Jung JY, An G.
Expressed sequence tags of radish flower buds and characterization of a CONSTANS LIKE 1 gene.
Mol Cells.    impact factor:   .93
1998;  8(4): 452-8

44:  Sakasai M, Fukui H, Yamane H, Kyaw AN, Tahara S.
A new class of biflavonoids: 2'-hydroxygenistein dimers from the roots of white lupin.
Z Naturforsch [C].    impact factor:   .709
2000;  55(3-4): 165-74

45:  Bach TJ, Lichtenthaler HK.
Mevinolin: a highly specific inhibitor of microsomal 3-hydroxy-3-methylglutaryl-coenzyme A reductase of radish plants.
Z Naturforsch [C].    impact factor:   .709
1982;  37(1-2): 46-50

46:  McKeehen JD, Smart DJ, Mackowiak CL, Wheeler RM, Nielsen SS.
Effect of CO2 levels on nutrient content of lettuce and radish.
Adv Space Res.    impact factor:   .521
1996;  18(4-5): 85-92

47:  Sipos P, Hagymasi K, Lugasi A, Feher E, Blazovics A.
Effects of black radish root (Raphanus sativus L. var niger) on the colon mucosa in rats fed a fat rich diet.
Phytother Res.    impact factor:   .364
2002;  16(7): 677-9

48:  Bordoloi GN, Kumari B, Guha A, Thakur D, Bordoloi M, Roy MK, Bora TC.
Potential of a novel antibiotic, 2-methylheptyl isonicotinate, as a biocontrol agent against fusarial wilt of crucifers.
Pest Manag Sci.    impact factor:   0
2002;  58(3): 297-302

49:  Zhou Q.
[Transporting models of reactive X-3B red dye in water-soil-crop continuums]
Ying Yong Sheng Tai Xue Bao.    impact factor:   0
2002;  13(2): 129-32

50:  Ban-nai T, Muramatsu Y.
Transfer factors of radioactive Cs, Sr, Mn, Co and Zn from Japanese soils to root and leaf of radish.
J Environ Radioact.    impact factor:   0
2002;  63(3): 251-64

51:  Novitskii YuI, Novitskaya GV.
Acetylcholine content and the localization of acetylcholine esterase activity in different tissues of magnetic-orientation types of radish.
Dokl Biochem.    impact factor:   0
2000;  371(1-6): 57-9

52:  Basile A, Sorbo S, Giordano S, Ricciardi L, Ferrara S, Montesano D, Castaldo Cobianchi R, Vuotto ML, Ferrara L.
Antibacterial and allelopathic activity of extract from Castanea sativa leaves.
Fitoterapia.    impact factor:   0
2000;  71 Suppl 1: S110-6

53:  Makarenko SP, Konenkina TA, Salyaev RK.
Characteristics of fatty acid composition of lipids in higher plant vacuolar membranes.
Membr Cell Biol.    impact factor:   0
2000;  13(5): 687-95

54:  Carbonell-Barrachina AA, Burlo F, Lopez E, Martinez-Sanchez F.
Arsenic toxicity and accumulation in radish as affected by arsenic chemical speciation.
J Environ Sci Health B.    impact factor:   0
1999;  34(4): 661-79

55:  Alibardi L.
Ultrastructural and immunocytochemical characterization of neurons in the rat ventral cochlear nucleus projecting to the inferior colliculus.
Anat Anz.    impact factor:   0
1998;  180(5): 415-26

56:  Anai T, Kono N, Kosemura S, Yamamura S, Hasegawa K.
Isolation and characterization of an auxin-inducible SAUR gene from radish seedlings.
DNA Seq.    impact factor:   0
1998;  9(5-6): 329-33

57:  Dekkers LC, Phoelich CC, van der Fits L, Lugtenberg BJ.
A site-specific recombinase is required for competitive root colonization by Pseudomonas fluorescens WCS365.
Proc Natl Acad Sci U S A.    impact factor:   0
1998;  95(12): 7051-6

58:  Berkovich IuA, Krivobok SM, Krivobok NM, Siniak IuE, Zakharov SB, Matusevich VV.
[Characteristics of several artificial substitutes of soil for space flight greenhouses]
Aviakosm Ekolog Med.    impact factor:   0
1997;  31(6): 51-5

59:  Sparapano L, Evidente A.
Studies on structure-activity relationship of seiridins, phytotoxins, produced by three species of Seiridium.
Nat Toxins.    impact factor:   0
1995;  3(3): 166-73

60:  Sussex IM, Godoy JA, Kerk NM, Laskowski MJ, Nusbaum HC, Welsch JA, Williams ME.
Cellular and molecular events in a newly organizing lateral root meristem.
Philos Trans R Soc Lond B Biol Sci.    impact factor:   0
1995;  350(1331): 39-43

61:  Ivanova TN, Bercovich YuA, Mashinskiy AL, Meleshko GI.
The first "space" vegetables have been grown in the "SVET" greenhouse by means of controlled environmental conditions.
Microgravity Q.    impact factor:   0
1992;  2(2): 109-14

62:  Martinez MC, Jorgensen JE, Lawton MA, Lamb CJ, Doerner PW.
Spatial pattern of cdc2 expression in relation to meristem activity and cell proliferation during plant development.
Proc Natl Acad Sci U S A.    impact factor:   0
1992;  89(16): 7360-4

63:  Molochko VA, Lastochkina TM, Krylov IA, Brangulis KA.
[The antistaphylococcal properties of plant extracts in relation to their prospective use as therapeutic and prophylactic formulations for the skin]
Vestn Dermatol Venerol.    impact factor:   0
1990;  (8): 54-6

64:  Yamaguchi T, Tsukamoto Y, Takahashi K.
Calorimetry as an analytical tool for germination tests of plant seeds.
Tokai J Exp Clin Med.    impact factor:   0
1990;  15(5): 381-6

65:  Wada K, Onda M, Matsubara H.
Amino acid sequences of ferredoxin isoproteins from radish roots.
J Biochem (Tokyo).    impact factor:   0
1989;  105(4): 619-25

66:  Wheeler WB, Thompson NP, Edelstein RL, Littell RC, Krause RT.
Influence of various solvent-water mixtures on the extraction of dieldrin and methomyl residues from radishes.
J Assoc Off Anal Chem.    impact factor:   0
1982;  65(5): 1112-7

67:  Suzuki T, Ishikawa K, Sato N, Sakai KI.
Determination of chlorinated pesticide residues in foods. II. Potassium permanganate oxidation for cleanup of some vegetable extracts.
J Assoc Off Anal Chem.    impact factor:   0
1979;  62(3): 687-8

68:  Eloesser W, Herrmann K.
[Flavonols and flavones of vegetables. V. Flavonols and flavones of root vegetables (author's transl)]
Z Lebensm Unters Forsch.    impact factor:   0
1975;  159(5): 265-70

69:  Tome F, Campedelli L, Bellini E.
Distribution of phenylalanine transaminase and phenylalanine ammonia-lyase activities in etiolated and light irradiated radish seedlings (Raphanus sativus L.).
Experientia.    impact factor:   0
1975;  31(10): 1119-21

70:  Stohr H, Herrmann K.
[On the phenolic acids of vegetables. III. Hydroxycinnamic acids and hydroxybenzoic acids of root vegetables (author's transl)]
Z Lebensm Unters Forsch.    impact factor:   0
1975;  159(4): 218-24

71:  Younis AE, Hamed AA.
Utilization of L-glutamine by radish root slices.
Acta Biol.    impact factor:   0
1970;  21(3): 265-72

72:  Nakayama S, Amagase S, Tahara M, Okumura K.
Microanalysis of action patterns of amylolytic enzymes: identification of a glucose-forming amylase in Japanese radish root.
J Biochem (Tokyo).    impact factor:   0
1969;  65(5): 751-4

73:  Watanabe Y, Suzuki Y.
Participation of potassium chloroplatinate in peroxidase-catalyzed oxidations by the extract of Japanese radish root.
Enzymologia.    impact factor:   0
1968;  34(1): 1-6


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