Ingredient ID 35 
Chinese Pronunciation TIANDONG 
English Name Cochinchinese Asparagus Root  
Latin Name Ridix Asparagi  
Aliases TianMenDong
DaDangMenGen  
Cancers Leukemia
Breast
Lymphoma  
Identified Compounds
7

order by name

1. Glycine

   C2H5NO2   75.07
  ID:2698

2. 5-methoxy-methylfurfural

   C7H8O3   140.14
  ID:4232

3. Beta-sitosterol

   C29H50O   414.71
  ID:5884

4. Asparagine

   C4H8N2O3   132.12
  ID:6995

5. Serine

   C3H7NO3   105.09
  ID:8552

6. Threonine

   C4H9NO3   119.12
  ID:8553

7. Proline

   C5H9NO2   115.13
NSC# 97923 Activity (but inactive >10uM)
  ID:8555

 
Recipes that contain
TIANDONG
  1. 20      LiWeiHuaJieTang
  2. 21      LiWeiTongGuanTang
  3. 51      ErShenErDongTang
  4. 55      ErXianTang
  5. 61      QingDuLiFeiTang
  6. 73      ShengJinJieDuYin
  7. 77      HeiPiGao
  8. 101      RuAiFang
  9. 149      SanCaiFengShuiDan
  10. 203      JinFuKang
  11. 229      BanXiaZuRuTang
  12. 232      ShiGuanAiFangII
  13. 241      LiWeiKangAiTang
  14. 241      LiWeiKangAiTang
  15. 291      YiQiZiYinTang
  16. 299      ErShenErDongTang
  17. 300      FeiAiXiaoTang
  18. 301      FuZhengGongAiTang
  19. 303      ErXianTang
  20. 309      QingDuLiFeiTang
  21. 323      ShengJinJieDuYin
  22. 327      SheLianLiangShenTang
  23. 327      SheLianLiangShenTang
  24. 361      FuFangHuangQiTang
  25. 381      RuAiFang
  26. 433      SanCaiFengSuiDan
  27. 446      BaiXueBingFangII
  28. 490      XianWeiRouLiuFang
 

Available references (order by impact factor):

1:  Chevalier C, Bourgeois E, Just D, Raymond P.
Metabolic regulation of asparagine synthetase gene expression in maize (Zea mays L.) root tips.
Plant J.    impact factor:   5.09
1996;  9(1): 1-11

2:  Hughes CA, Beard HS, Matthews BF.
Molecular cloning and expression of two cDNAs encoding asparagine synthetase in soybean.
Plant Mol Biol.    impact factor:   3.102
1997;  33(2): 301-11

3:  Firek S, Ozcan S, Warner SA, Draper J.
A wound-induced promoter driving npt-II expression limited to dedifferentiated cells at wound sites is sufficient to allow selection of transgenic shoots.
Plant Mol Biol.    impact factor:   3.102
1993;  22(1): 129-42

4:  Mitchell SC.
Food idiosyncrasies: beetroot and asparagus.
Drug Metab Dispos.    impact factor:   2.519
2001;  29(4 Pt 2): 539-43

5:  Dange PS, Kanitkar UK, Pendse GS.
Amylase and lipase activities in the root of Asparagus racemosus.
Planta Med.    impact factor:   1.438
1969;  17(4): 393-5

6:  Suzuki T, Kaneko M, Harada T, Yakuwa T.
Enhanced Formation of Roots and Subsequent Promotion of Growth of Shoots on Cryopreserved Nodal Segments of Asparagus officinalis L.
Cryobiology.    impact factor:   1.348
1998;  36(3): 194-205

7:  Kim H, Lee E, Lim T, Jung J, Lyu Y.
Inhibitory effect of Asparagus cochinchinensis on tumor necrosis factor-alpha secretion from astrocytes.
Int J Immunopharmacol.    impact factor:   1.142
1998;  20(4-5): 153-62

8:  Sharma SC, Thakur NK.
Oligofurostanosides and oligospirostanosides from roots of Asparagus filicinus.
Phytochemistry.    impact factor:   1.106
1996;  41(2): 599-603

9:  Yu T, Nassuth A, Peterson RL.
Characterization of the interaction between the dark septate fungus Phialocephala fortinii and Asparagus officinalis roots.
Can J Microbiol.    impact factor:   1.072
2001;  47(8): 741-53

10:  Nwafor PA, Okwuasaba FK, Binda LG.
Antidiarrhoeal and antiulcerogenic effects of methanolic extract of Asparagus pubescens root in rats.
J Ethnopharmacol.    impact factor:   .687
2000;  72(3): 421-7

11:  Koo HN, Jeong HJ, Choi JY, Choi SD, Choi TJ, Cheon YS, Kim KS, Kang BK, Park ST, Chang CH, Kim CH, Lee YM, Kim HM, An NH, Kim JJ.
Inhibition of tumor necrosis factor-alpha-induced apoptosis by Asparagus cochinchinensis in Hep G2 cells.
J Ethnopharmacol.    impact factor:   .687
2000;  73(1-2): 137-43

12:  Nwafor PA, Okwuasaba FK, Onoruvwe OO.
Contraceptive and non-estrogenic effects of methanolic extract of Asparagus pubescens root in experimental animals.
J Ethnopharmacol.    impact factor:   .687
1998;  62(2): 117-22

13:  Singh R, Rai B.
Antifungal potential of some higher plants against Fusarium udum causing wilt disease of Cajanus cajan.
Microbios.    impact factor:   .44
2000;  102(403): 165-73

14:  Mandal SC, Nandy A, Pal M, Saha BP.
Evaluation of antibacterial activity of Asparagus racemosus willd. root.
Phytother Res.    impact factor:   .364
2000;  14(2): 118-9

15:  Petitpierre E.
Chromosome studies on primitive chrysomelids. 1. A survey of six species of Criocerinae (Coleoptera, Chrysomelidae).
Cytobios.    impact factor:   .239
1980;  28(111-112): 179-85

16:  Hong SJ, Fong JC, Hwang JH.
Effects of crude drugs on lipolysis in differentiated 3T3-L1 adipocytes.
Kaohsiung J Med Sci.    impact factor:   0
2002;  18(4): 157-63

17:  Saxena VK, Chourasia S.
A new isoflavone from the roots of Asparagus racemosus.
Fitoterapia.    impact factor:   0
2001;  72(3): 307-9

18:  Yu B, Luo X, Xu Y, Xu L, Xu G.
[Determination of sarsasapogenin in "tian dong" by TLCS]
Zhong Yao Cai.    impact factor:   0
2001;  24(8): 577-8

19:  Mandal SC, Kumar C K A, Mohana Lakshmi S, Sinha S, Murugesan T, Saha BP, Pal M.
Antitussive effect of Asparagus racemosus root against sulfur dioxide-induced cough in mice.
Fitoterapia.    impact factor:   0
2000;  71(6): 686-9

20:  Hong SJ, Fong JC, Hwang JH.
Effects of crude drugs on glucose uptake in 3T3-L1 adipocytes.
Kaohsiung J Med Sci.    impact factor:   0
2000;  16(9): 445-51

21:  Zhao Q, Li J, Xu J, Yan T.
[Effects of simulated microgravity on the distribution of 45Ca2+ in asparagus]
Space Med Med Eng (Beijing).    impact factor:   0
1998;  11(1): 30-4

22:  Singh R, Khan NU, Singhal KC.
Potential antifilarial activity of roots of Asparagus adscendens Roxb, against Setaria cervi in vitro.
Indian J Exp Biol.    impact factor:   0
1997;  35(2): 168-72

23:  Xue X, Shen L, Jin Y.
[Effects of fertilization on yield of Asparagus cochinchinensis (Lour.) Merr]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1992;  17(8): 464-5, 510

24:  Ding Y, Yang CR.
[Steroidal saponins from Asparagus filicinus]
Yao Xue Xue Bao.    impact factor:   0
1990;  25(7): 509-14

25:  Katayama S.
[The evaluation of uterine endocervical lesions by cervicoscopy of lateral view type (clinical advantages for reduction of traditional surgical management of uterine cervical cancer)]
Nippon Sanka Fujinka Gakkai Zasshi.    impact factor:   0
1984;  36(10): 1884-92

 

Responsed in 1078 milliseconds.

Webpage designed by Dr. Xueliang Fang, last updated on 3/10/2005