Magnesium chloride

Formula: MgCl2

KEGG ID: C07755

BiGG ID: <None>

SEED ID: cpd04877

Chebi ID(s): 6636

Pubchem ID(s): 5360315

1 Alternate name(s):

  • Magnesium chloride anhydrous
118 Media:
  1. A+b salts medium with uracil; jensen et al
  2. A+b salts medium; jensen et al
  3. Ams1 (pyruvate+glycine)
  4. Ams1 (pyruvate+glycine) + thiamin
  5. Ams1 (pyruvate+glycine) + thiamin + 2-aminoethylphosphonic acid
  6. Ams1 (pyruvate+glycine) + thiamin + glucose 6-phosphate
  7. Ams1 (pyruvate+glycine) + thiamin + methylphosphonic acid
  8. Ams1 (pyruvate+glycine) + thiamin + phosphite
  9. Ams1 (pyruvate+glycine) + thiamin + phosphoserine
  10. Ams1 (pyruvate+glycine) + thiamin + ribose 5-phosphate
  11. Ams1 (pyruvate+serine)
  12. Ams1 (pyruvate+serine) + thiamin
  13. Bl medium
  14. Bl medium + arg
  15. Bl medium + arg + ser + trp
  16. Bl medium + asp
  17. Bl medium, low mops
  18. Complete chemically-defined medium
  19. Dawes and mandelstam medium; from leitch et al
  20. Deferrated synbase with ferric ammonium citrate; simpson
  21. Deferrated synbase; simpson et al
  22. E2 medium with citrate
  23. E2 medium with gluconate
  24. E2 medium with octanoate
  25. Fry et al
  26. Glucose minimal media; shehata et al
  27. Hs medium (methanol-acetate)
  28. Hypertonic medium
  29. Leitch et al
  30. M9 - echenique
  31. M9 - tomaras
  32. Mcd medium
  33. Mma; klein et al
  34. Mmb; klein et al
  35. Mmglu; jasiecki et al
  36. Mops medium; vanbogelen
  37. Mops minimal medium (bergholz et al)
  38. Ms10 medium
  39. Ms10 medium + supplements + acetate for batch cultivation
  40. Ms10 medium + supplements for batch cultivation
  41. Ms10 medium + supplements for batch cultivation (modified)
  42. Ms10 medium + supplements for continuous cultivation
  43. Ms10r medium
  44. Ms13 medium
  45. Ms15 medium
  46. Mcn medium (whitman)
  47. Mcna medium (lupa)
  48. Mic-cit; herriott et al
  49. Mic; herriott et al
  50. Minimal medium w/amino acids (tang et al 2009)
  51. Minimal medium w/amino acids and salt stress (tang et al 2009)
  52. Minimal chemically-defined medium (letort 2001)
  53. Minimal chemically-defined medium + his +pro (letort 2001)
  54. Minimal medium (tang et al 2009)
  55. Minimal medium with salt stress (tang et al 2009)
  56. Minimal medium; whitchurch et al
  57. Mj media
  58. Mmace; jasiecki et al
  59. Mmgly; jasiecki et al
  60. Mms medium; huber et al
  61. Mmsuc; jasiecki et al
  62. Modifed m9 with glucose
  63. Modified m1 medium with acetate; pinchuk et al
  64. Modified m1 medium with lactate and glycine (no nh4cl); pinchuk et al
  65. Modified m1 medium with 18 mm lactate; pinchuk et al
  66. Modified m1 medium with 20 mm lactate; pinchuk et al
  67. Modified m9 with toluene
  68. Mops medium
  69. Nmm with acetate
  70. Nmm with glucose
  71. Nmm with pyruvate
  72. Nmm with succinate
  73. Nmm with lactate
  74. Nmm with malate
  75. Protoplasting medium
  76. Rdm
  77. Rdm - 10 mm nacl
  78. Rdm - 20 mm nacl
  79. Rdm - 50 mm nacl
  80. Rdm base medium + vitamins + maltose (0.5 g/l nh4cl)
  81. Rdm base medium + vitamins + maltose (1 g/l nh4cl)
  82. Sa medium
  83. Song optimal cdm
  84. Song cdm
  85. Synthetic medium c
  86. Tris-buffered artificial seawater with nh4cl and acetate
  87. Tris-buffered artificial seawater with nh4cl and sulfolactate
  88. Zahorchak et al medium; 1.25 mm exogenous atp, 1.25 mm mg^2+
  89. Zahorchak et al medium; 1.25 mm exogenous atp, 10 mm mg^2+
  90. Zahorchak et al medium; 1.25 mm exogenous atp, 2.5 mm mg^2+
  91. Zahorchak et al medium; 1.25 mm exogenous atp, 20 mm mg^2+
  92. Zahorchak et al medium; 1.25 mm exogenous atp, 5.0 mm mg^2+
  93. Zahorchak et al medium; 10 mm exogenous atp, 1.25 mm mg^2+
  94. Zahorchak et al medium; 10 mm exogenous atp, 10 mm mg^2+
  95. Zahorchak et al medium; 10 mm exogenous atp, 2.5 mm mg^2+
  96. Zahorchak et al medium; 10 mm exogenous atp, 20 mm mg^2+
  97. Zahorchak et al medium; 10 mm exogenous atp, 5.0 mm mg^2+
  98. Zahorchak et al medium; 2.5 mm ca2+, 2.5 mm mg2+
  99. Zahorchak et al medium; 2.5 mm exogenous atp, 1.25 mm mg^2+
  100. Zahorchak et al medium; 2.5 mm exogenous atp, 10 mm mg^2+
  101. Zahorchak et al medium; 2.5 mm exogenous atp, 2.5 mm mg^2+
  102. Zahorchak et al medium; 2.5 mm exogenous atp, 20 mm mg^2+
  103. Zahorchak et al medium; 2.5 mm exogenous atp, 5.0 mm mg^2+
  104. Zahorchak et al medium; 20 mm exogenous atp, 1.25 mm mg^2+
  105. Zahorchak et al medium; 20 mm exogenous atp, 10 mm mg^2+
  106. Zahorchak et al medium; 20 mm exogenous atp, 2.5 mm mg^2+
  107. Zahorchak et al medium; 20 mm exogenous atp, 20 mm mg^2+
  108. Zahorchak et al medium; 20 mm exogenous atp, 5.0 mm mg^2+
  109. Zahorchak et al medium; 5.0 mm exogenous atp, 1.25 mm mg^2+
  110. Zahorchak et al medium; 5.0 mm exogenous atp, 10 mm mg^2+
  111. Zahorchak et al medium; 5.0 mm exogenous atp, 2.5 mm mg^2+
  112. Zahorchak et al medium; 5.0 mm exogenous atp, 20 mm mg^2+
  113. Zahorchak et al medium; 5.0 mm exogenous atp, 5.0 mm mg^2+
  114. Zahorchak et al medium; no exogenous atp, 1.25 mm mg^2+
  115. Zahorchak et al medium; no exogenous atp, 10 mm mg^2+
  116. Zahorchak et al medium; no exogenous atp, 2.5 mm mg^2+
  117. Zahorchak et al medium; no exogenous atp, 20 mm mg^2+
  118. Zahorchak et al medium; no exogenous atp, 5.0 mm mg^2+
© 2014, Institute for Systems Biology, All Rights Reserved