Sixteen Parma hams were manufactured following regular standard procedures
up to the 13th month of processing and then divided into two groups accordi
ng to established levels of cathepsin B activity in fresh hams. Each group
was selected in order to include the same number of hams with low or high c
athepsin B activity. The two groups were further split to be kept for an ad
ditional month at two different temperatures (18 and 26 degreesC) and then
analysed for proximate composition, free amino acids and oligopeptides (MW
< 500 Da). All hams were analysed by sensory analysis (panel test) to be sc
ored for saltiness, bitterness and the flavour of "ageing". Fresh hams with
higher cathepsin B activity were shown by means of two-way ANOVA to yield
dry-cured hams more proteolysed (P < 0.01), while the higher temperature of
the final ageing period seemed to play a major role in lowering ham drynes
s. Bitterness was particularly well perceived in most proteolysed hams and
it was significantly related to the higher amounts of lipophilic amino acid
s and lipophilic oligopeptides (identified by mass spectrometry), in agreem
ent with the literature. Thus, the endopeptidase activity in fresh hams, to
gether with the presence of specific lipophilic amino acids and oligopeptid
es in dry-cured hams, can be regarded as a molecular marker of bitter taste
development. (C) 2001 Elsevier Science Ltd. All rights reserved.