- chemistry, the
Lobry de Bruyn–Van
Ekenstein transformation also
known as the
Lobry de Bruyn–Alberda van
Ekenstein transformation is the base or acid...
- color.
Ketoses can
isomerize to
aldoses through the Lobry-de Bruyn-van
Ekenstein transformation. All
ketoses listed here are 2-ketoses, in
other words...
- Onno
Reint Alberda van
Ekenstein (Dutch pronunciation: [ɔˈnoː rɛint ɑlˈbɛrdaː vɑn ˈeːkə(n)stɛin]; 3
February 1752 – 21
October 1821) was a
Dutch nobleman...
- nih.gov.
Retrieved 2018-04-26. C. A.
Lobry de
Bruyn and W.
Alberda van
Ekenstein (1897): "Action des
alcalis sur les sucres. VI: La
glutose et la pseudo‐fructose"...
- color.
Aldoses can
isomerize to
ketoses through the Lobry-de Bruyn-van
Ekenstein transformation.
Aldoses are
differentiated by the
number of
carbon atoms...
- (as in
interconversion of D-glucose and D-mannose in
Lobry de Bruyn–Van
Ekenstein transformation), or
asymmetric transformation (conversion of a racemate...
- been observed. Aldose-ketose isomerism, also
known as
Lobry de Bruyn–van
Ekenstein transformation,
provides an
example in
saccharide chemistry.[citation...
-
Willem Alberda van
Ekenstein (March 28, 1858 – May 5, 1937) was a
Dutch chemist and
discovered the
Lobry de Bruyn–van
Ekenstein transformation together...
-
species are
important in glycochemistry, e.g., the
Lobry de Bruyn-van
Ekenstein transformation. Ribulose-1,5-bisphosphate is a key
substrate in the Calvin...
- needed] It can also be
formed from
glucose in the
Lobry de Bruyn–van
Ekenstein transformation.[citation needed]
Mannose (D-mannose) is used as a dietary...
