Pages that link to "Q74495756"

The following pages link to Lactate influx into red blood cells from trained and untrained human subjects (Q74495756):

Displaying 14 items.

• Lactate metabolism: a new paradigm for the third millennium (Q24677962) (← links)
• Importance of pH homeostasis in metabolic health and diseases: crucial role of membrane proton transport (Q26995687) (← links)
• Blood lactate measurements and analysis during exercise: a guide for clinicians (Q28263445) (← links)
• Inward flux of lactate⁻ through monocarboxylate transporters contributes to regulatory volume increase in mouse muscle fibres (Q35078397) (← links)
• The concept of maximal lactate steady state: a bridge between biochemistry, physiology and sport science (Q35126615) (← links)
• Cancer metabolism, stemness and tumor recurrence: MCT1 and MCT4 are functional biomarkers of metabolic symbiosis in head and neck cancer (Q36906195) (← links)
• A mathematical model for lactate transport to red blood cells. (Q39802126) (← links)
• Warming-Up Affects Performance and Lactate Distribution between Plasma and Red Blood Cells (Q42258430) (← links)
• Effects of short-term training on plasma acid-base balance during incremental exercise in man. (Q44453339) (← links)
• Effects of bicarbonate ingestion and high intensity exercise on lactate and H( )-ion distribution in different blood compartments (Q45717593) (← links)
• Lactate metabolism: historical context, prior misinterpretations, and current understanding. (Q48265527) (← links)
• Extracellular bicarbonate and non-bicarbonate buffering against lactic acid during and after exercise (Q56964885) (← links)
• L-lactate reduces in vitro the inhibition of butyrylcholinesterase (BChE) by paraoxon (E 600) (Q73064782) (← links)
• L-lactate protects in vitro acetylcholinesterase (AChE) from inhibition by paraoxon (E 600) (Q74173231) (← links)