labile The term has loosely been used to describe
either a relatively unstable and transient chemical
species or a relatively STABLEbut reactive species.
See alsoINERT.
lability Instability; refers to a state that is easily
altered or modified. A phenotype’s capacity to respond
differentially to varying environmental conditions. Also
called phenotypic plasticity.
laccase A copper-containing ENZYME, 1,4-benzenedi-
ol oxidase, found in higher plants and microorganisms.
Laccases areMULTICOPPER OXIDASESof wide specificity
that carry out one-electron oxidation of phenolic and
related compounds and reduce O 2 to water. The
enzymes are polymeric and generally contain one each
of TYPE1, TYPE2, TYPE 3 COPPERcenters per SUBUNIT,
wherethe type 2 and type 3 are close together, forming
a trinuclear copper CLUSTER.
See alsoNUCLEARITY.
lactate Alternate name for lactic acid, a chemical cre-
ated from sugars when broken down for energy in the
absence of oxygen.
lacteal Numerous small lymphatic vessels in the inte-
rior of each intestinal villus, small fingerlike projections
of the mucosal layer of the small intestine, that
picks up chyme, a thick semifluid mass of partially
digested food, and passes it through the lymph system
via the thoracic duct to the blood system; aids in the
absorption of fats.lactoferrin An iron-binding protein from milk, struc-
turally similar to the TRANSFERRINs.lagging strand In DNA synthesis, polymerization
occurs both in and away from the nearest replication
fork. One of two newly created DNA strands is the lag-
ging strand. Found at the replication fork on linear
chromosomes, it is synthesized in the direction away
from the replication fork. It is the synthesis of a new
strand of replication DNA by the creation of short seg-
ments of various lengths that are later joined together
covalently by the enzyme DNA ligase.
It is made in discontinuous lengths, called Ozark
fragments, in the 5’ to 3’ growing-tip (number of atoms
in the sugar residues) direction during DNA polymer-
ization, and these are joined covalently at a later time.
Since it is not synthesized continuously, it is called dis-
continuous replication.
The difference between the lagging and leading
strands is due to the orientation of the parent template
strands. The leading-strand template is facing a 5’ to 3’
direction, but the lagging strand itself is oriented in the
3’ to 5’ direction, so the DNA polymerase responsible195