triose phosphate
triose fosfat
triose sugar
triose sukker
triose isomerase
triose isomerase
triose level
trioseniveau
triose derivatives
triosederivater
triose metabolism
triosemetabolisme
triose pathway
triosevej
triose formation
triosedannelse
triose concentration
triosekoncentration
triose conversion
trioseomvendelse
triose is a type of sugar that plays a crucial role in metabolism.
Triose er en type sukker, der spiller en afgørende rolle i metabolismen.
in glycolysis, glucose is broken down into triose phosphates.
I glykolyse nedbrydes glucose til triose fosfater.
triose sugars are important for cellular energy production.
Triose-sukker er vigtigt for cellulær energiproduktion.
researchers are studying the role of triose in plant metabolism.
Forskere studerer trioses rolle i planters metabolisme.
triose can be formed during the breakdown of more complex carbohydrates.
Triose kan dannes under nedbrydningen af mere komplekse kulhydrater.
understanding triose metabolism can help in developing new therapies.
At forstå triose-metabolismen kan hjælpe med at udvikle nye terapier.
triose phosphate isomerase is an important enzyme in glycolysis.
Triose fosfat isomerase er et vigtigt enzym i glykolyse.
some bacteria can utilize triose as a carbon source.
Nogle bakterier kan udnytte triose som en kulstofkilde.
triose levels can affect the overall energy balance in cells.
Trioseniveauet kan påvirke den samlede energibalance i cellerne.
in biochemistry, triose is often studied for its metabolic pathways.
Inden for biokemi studeres triose ofte for dets metaboliske veje.
triose phosphate
triose fosfat
triose sugar
triose sukker
triose isomerase
triose isomerase
triose level
trioseniveau
triose derivatives
triosederivater
triose metabolism
triosemetabolisme
triose pathway
triosevej
triose formation
triosedannelse
triose concentration
triosekoncentration
triose conversion
trioseomvendelse
triose is a type of sugar that plays a crucial role in metabolism.
Triose er en type sukker, der spiller en afgørende rolle i metabolismen.
in glycolysis, glucose is broken down into triose phosphates.
I glykolyse nedbrydes glucose til triose fosfater.
triose sugars are important for cellular energy production.
Triose-sukker er vigtigt for cellulær energiproduktion.
researchers are studying the role of triose in plant metabolism.
Forskere studerer trioses rolle i planters metabolisme.
triose can be formed during the breakdown of more complex carbohydrates.
Triose kan dannes under nedbrydningen af mere komplekse kulhydrater.
understanding triose metabolism can help in developing new therapies.
At forstå triose-metabolismen kan hjælpe med at udvikle nye terapier.
triose phosphate isomerase is an important enzyme in glycolysis.
Triose fosfat isomerase er et vigtigt enzym i glykolyse.
some bacteria can utilize triose as a carbon source.
Nogle bakterier kan udnytte triose som en kulstofkilde.
triose levels can affect the overall energy balance in cells.
Trioseniveauet kan påvirke den samlede energibalance i cellerne.
in biochemistry, triose is often studied for its metabolic pathways.
Inden for biokemi studeres triose ofte for dets metaboliske veje.
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