87. The Membranes of Archaea Are Rich in Isoprene-Based Lipids
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88. Why Do Plants Emit Isoprene?
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89. Coumadin or Warfarin-Agent of Life or Death
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90. Steroids
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91. Page 249
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92. Steroids
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93. Page 249
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94. Cholestrol
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95. Slide 44
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96. Slide 44
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97. Functions of cholesterol on membrane:
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98. Plant Sterols and Stanols-Natural Cholesterol Fightersmimics bind to cholesterol receptors on intestinal cells and block absorption of cholesterol itself
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99. Functions of cholesterol on membrane:
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100. Functions of cholesterol on membrane:
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101. Plant Sterols and Stanols-Natural Cholesterol Fightersmimics bind to cholesterol receptors on intestinal cells and block absorption of cholesterol itself
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102. Plant Sterols and Stanols-Natural Cholesterol Fightersmimics bind to cholesterol receptors on intestinal cells and block absorption of cholesterol itself
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103. Plant Sterols and Stanols-Natural Cholesterol Fightersmimics bind to cholesterol receptors on intestinal cells and block absorption of cholesterol itself
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104. Plant Sterols and Stanols-Natural Cholesterol Fightersmimics bind to cholesterol receptors on intestinal cells and block absorption of cholesterol itself
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105. How Do Lipids and Their Metabolites Act as Biological Signals?
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106. Page 251
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107. Page 252
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108. How Do Lipids and Their Metabolites Act as Biological Signals?
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109. Page 251
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110. Page 252
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111. Page 254
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112. Slide 52
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113. Page 254
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114. Slide 52
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115. Fumonisin inhibits sphingolipid biosynthesis
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116. Fingolimod and Multiple Sclerosis
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117. Fingolimod and Multiple Sclerosis
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118. The Endocannabinoid Signaling System: a Target for Next-Geration Therpeutics- Endocannabinoids are lipids-A novel retrograde mechanism-Activated endocannabinoid receptors can act to either inhibit or activate neural circuits, depending on the type of neur