In vitro rates of oxidation and gluconeogenesis from l(+)- and d(-)lactate in bovine tissues

D. L. Harmon; R. A. Britton; R. L. Prior

doi:10.1016/0305-0491(84)90344-4

In vitro rates of oxidation and gluconeogenesis from l(+)- and d(-)lactate in bovine tissues

D. L. Harmon
, R. A. Britton
, R. L. Prior

Animal and Food Sciences

Producción científica: Article › revisión exhaustiva

23 Citas (Scopus)

Resumen

1. 1. Slices of bovine kidney cortex, liver, heart and sternomandibularis muscle actively metabolized d- and l-lactate. 2. 2. Rates of d-lactate oxidation were greatest in kidney cortex followed by heart and liver with muscle exhibiting the lowest rates. 3. 3. l-lactate oxidation was greatest in kidney cortex followed by heart with liver and muscle exhibiting similar rates. 4. 4. Rates of oxidation of gluconeogenesis were similar for d- and l-lactate at 0.1 mm lactate but d utilization, as a percent of l, decreased as substrate concentrations increased to 50 mM. 5. 5. Bovine tissues appear to possess significant potential for d(-)lactate utilization. Estimates of this and possible interactions are discussed.

Idioma original	English
Páginas (desde-hasta)	365-368
Número de páginas	4
Publicación	Comparative Biochemistry and Physiology Part - B: Biochemistry and Molecular Biology
Volumen	77
N.º	2
DOI	https://doi.org/10.1016/0305-0491(84)90344-4
Estado	Published - 1984

ASJC Scopus subject areas

Biochemistry
Physiology
Molecular Biology

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title = "In vitro rates of oxidation and gluconeogenesis from l(+)- and d(-)lactate in bovine tissues",

abstract = "1. 1. Slices of bovine kidney cortex, liver, heart and sternomandibularis muscle actively metabolized d- and l-lactate. 2. 2. Rates of d-lactate oxidation were greatest in kidney cortex followed by heart and liver with muscle exhibiting the lowest rates. 3. 3. l-lactate oxidation was greatest in kidney cortex followed by heart with liver and muscle exhibiting similar rates. 4. 4. Rates of oxidation of gluconeogenesis were similar for d- and l-lactate at 0.1 mm lactate but d utilization, as a percent of l, decreased as substrate concentrations increased to 50 mM. 5. 5. Bovine tissues appear to possess significant potential for d(-)lactate utilization. Estimates of this and possible interactions are discussed.",

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T1 - In vitro rates of oxidation and gluconeogenesis from l(+)- and d(-)lactate in bovine tissues

AU - Harmon, D. L.

AU - Britton, R. A.

AU - Prior, R. L.

PY - 1984

Y1 - 1984

N2 - 1. 1. Slices of bovine kidney cortex, liver, heart and sternomandibularis muscle actively metabolized d- and l-lactate. 2. 2. Rates of d-lactate oxidation were greatest in kidney cortex followed by heart and liver with muscle exhibiting the lowest rates. 3. 3. l-lactate oxidation was greatest in kidney cortex followed by heart with liver and muscle exhibiting similar rates. 4. 4. Rates of oxidation of gluconeogenesis were similar for d- and l-lactate at 0.1 mm lactate but d utilization, as a percent of l, decreased as substrate concentrations increased to 50 mM. 5. 5. Bovine tissues appear to possess significant potential for d(-)lactate utilization. Estimates of this and possible interactions are discussed.

AB - 1. 1. Slices of bovine kidney cortex, liver, heart and sternomandibularis muscle actively metabolized d- and l-lactate. 2. 2. Rates of d-lactate oxidation were greatest in kidney cortex followed by heart and liver with muscle exhibiting the lowest rates. 3. 3. l-lactate oxidation was greatest in kidney cortex followed by heart with liver and muscle exhibiting similar rates. 4. 4. Rates of oxidation of gluconeogenesis were similar for d- and l-lactate at 0.1 mm lactate but d utilization, as a percent of l, decreased as substrate concentrations increased to 50 mM. 5. 5. Bovine tissues appear to possess significant potential for d(-)lactate utilization. Estimates of this and possible interactions are discussed.

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U2 - 10.1016/0305-0491(84)90344-4

DO - 10.1016/0305-0491(84)90344-4

M3 - Article

C2 - 6697693

AN - SCOPUS:0021314328

SN - 0305-0491

VL - 77

SP - 365

EP - 368

JO - Comparative Biochemistry and Physiology Part - B: Biochemistry and Molecular Biology

JF - Comparative Biochemistry and Physiology Part - B: Biochemistry and Molecular Biology

IS - 2

ER -

In vitro rates of oxidation and gluconeogenesis from l(+)- and d(-)lactate in bovine tissues

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