This article purposed to discuss the connection between microbiota and characteristic flavor of different fish sauces (Natural fermentation (WQ), koji outdoor fermentation (YQ), heat preservation with enzyme (BWE), and heat preservation with koji (BWQ)) at the early (3 months) and late stage (7 months). A total of 117 flavor compounds were determined according to SPME-GC–MS analysis. O2PLS-DA and VIP values were used to reveal 15 and 28 flavor markers of different fish sauces at 3 and 7 M of fermentation. Further, the possible flavor formation pathways were analyzed using metagenomic sequencing, and the key microbes associated with flavor formation were identified at the genetic level. The top 10 genera related to flavor generation, such as Lactobacillus, Staphylococcus, Enterobacter, etc., appeared to play a prominent part in the flavor formation of fish sauce. The difference was that only BWQ and BWE groups could produce ethyl-alcohol through amino acid metabolism, while YQ, BWE and BWQ groups could generate phenylacetaldehyde through the transformation of Phe by α-ketoacid decarboxylase and aromatic amino acid transferase. Our research contributes to clarifying the various metabolic roles of microorganisms in the flavor generation of fish sauce.
Visual method including binocular stereo vision method and monocular vision method of the relative position and pose measurement for space target has become relatively mature, and many researchers focus on the method based on three-dimension measurement recently. ICP alignment, which is the key of three-dimension pattern measurement method, has the problem of low efficiency in large data sets. Considering this problem, an improved ICP algorithm is proposed in this paper. The improved ICP algorithm is the combination of the original ICP algorithm and KD-TREE. The experimental comparison between the improved ICP algorithm and the traditional ICP algorithm in efficiency has been given in this paper, which shows that the improved ICP algorithm can get much better performance.
Globally, aquatic processing industries pay great attention
to
the production of aquatic proteins for the fulfillment of the nutritive
requirements of human beings. Aquatic protein can replace terrestrial
animal protein due to its high protein content, complete amino acids,
unique flavor, high quality and nutritional value, and requirements
of religious preferences. Due to the superior functional properties,
an aquatic protein based delivery system has been proposed as a novel
candidate for improving the absorption and bioavailability of bioactive
substances, which might have potential applications in the food industry.
This review outlines the extraction techniques for and functional
properties of aquatic proteins, summarizes the potential modification
technologies for interaction with polyphenols, and focuses on the
application of aquatic-derived protein in delivery systems as well
as their interaction with the gastrointestinal tract (GIT). The extraction
techniques for aquatic proteins include water, salt, alkali/acid,
enzyme, organic solvent, and ultrasound-assisted extraction. The quality
and functionality of the aquatic proteins could be improved after
modification with polyphenols via covalent or noncovalent interactions.
Furthermore, some aquatic protein based delivery systems, such as
emulsions, gels, films, and microcapsules, have been reported to enhance
the absorption and bioavailability of bioactive substances by in vitro GIT, cell, and in vivo animal
models. By promoting comprehensive understanding, this review is expected
to provide a real-time reference for developing functional foods and
potential food delivery systems based on aquatic-derived proteins.
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