Actively phosphorylating mitochondria are more resistant to lactic acidosis than inactive mitochondriaTONKONOGI, M; SAHLIN, K.American journal of physiology. Cell physiology. 1999, Vol 46, Num 2, pp C288-C293, issn 0363-6143Article

Rate of oxidative phosphorylation in isolated mitochondria from human skeletal muscle : effect of training statusTONKONOGI, M; SAHLIN, K.Acta physiologica scandinavica. 1997, Vol 161, Num 3, pp 345-353, issn 0001-6772Article

Increased concentrations of P_i and lactic acid reduce creatine-stimulated respiration in muscle fibersWALSH, B; TIIVEL, T; TONKONOGI, M et al.Journal of applied physiology (1985). 2002, Vol 92, Num 6, pp 2273-2276, issn 8750-7587Article

Energy supply and muscle fatigue in humansSAHLIN, K; TONKONOGI, M; SÖDERLUND, K et al.Acta physiologica scandinavica. 1998, Vol 162, Num 3, pp 261-266, issn 0001-6772Conference Paper

Plasma hypoxanthine and ammonia in humans during prolonged exerciseSAHLIN, K; TONKONOGI, M; SÖDERLUND, K et al.European journal of applied physiology and occupational physiology. 1999, Vol 80, Num 5, pp 417-422, issn 0301-5548Article

Increased activity of citrate synthase in human skeletal muscle after a single bout of prolonged exerciseTONKONOGI, M; HARRIS, B; SAHLIN, K et al.Acta physiologica scandinavica. 1997, Vol 161, Num 3, pp 435-436, issn 0001-6772Article

Phosphocreatine content in single fibers of human muscle after sustained submaximal exerciseSAHLIN, K; SÖDERLUND, K; TONKONOGI, M et al.American journal of physiology. Cell physiology. 1997, Vol 42, Num 1, pp C172-C178, issn 0363-6143Article

Quantitative and qualitative adaptation of human skeletal muscle mitochondria to hypoxic compared with normoxic training at the same relative work rateBAKKMAN, L; SAHLIN, K; HOLMBERG, H.-C et al.Acta physiologica (Print). 2007, Vol 190, Num 3, pp 243-251, issn 1748-1708, 9 p.Article