Advances in Amylases—What’s Going on?

With regard to the CAZy database ( [...].

The scope of amylolytic enzymes, grouped especially in the main α-amylase clan, GH-H, but also in the additional α-amylase families GH57, GH119, and GH126 [2], has been exhibited as enormous during recent decades.This is even reflected in the establishment of a series of international symposia "on the α-amylase family" in 2001 called ALAMYs (http://imb.savba.sk/~janecek/Alamys/accessed on 14 October 2023), which are dedicated, in fact, to all aspects of these enzymes.The ALAMY symposia are organized once every three years, traditionally at the Smolenice Castle near Bratislava in Slovakia.Until now, the last meeting of this series-The Eighth Symposium on the Alpha-Amylase Family (ALAMY_8) grouping together "amylase-positive researchers"-was held on 9-13 October 2022.In addition to basic information about ALAMY_8 s sessions, topics and main speakers, those interested in reading some news posted during the symposium can visit the social network X (https://twitter.com/8_alamyaccessed on 14 October 2023).I, as the main organizer of ALAMYs symposia, have been extremely pleased about the opportunity to arrange-based on ALAMY_8-a Special Issue of the journal Molecules (MDPI) entitled "Advances in Amylases".It was decided that the Special Issue would be open not only to attendees of ALAMY_8, but also to all those who might have a relevant contribution of broader importance to this particular research field.This Special Issue, "Advances in Amylases", comprising thirteen papers-1 review and 12 original articles-has thus been arranged in an effort to present a state-of-the-art collection of highly specific stories focused on amylolytic enzymes classified in the α-amylase GH families to the greatest extent possible.

The Special Issue "Advances in Amylases"
The first part, consisting of four papers, covers amylolytic enzymes in general.Beginning with a Review by Blennow, Svensson, and co-workers (contribution 1), various aspects of the interfacial enzyme hydrolysis of native starch granules are discussed emphasizing kinetic approaches in terms of the current understanding of these processes.Then, three original articles follow.Firstly, Zinck et al. (contribution 2) demonstrate the use of sodium hypochlorite to achieve efficient irreversible α-amylase inactivation in the enzymatic processing of raw potato starch.Next, Bai and co-workers (contribution 3) describe the preparation of rice flour with a higher protein content using a granular starch hydrolysing enzyme.Finally, Gänzle and co-workers (contribution 4) deliver results obtained via the cloning of the α-glucan branching enzyme from a swine intestinal metagenome and elucidate its potential role in the formation of branched α-glucans from starch.
The next part of the Special Issue comprises six original articles that are all aimed at individual GH13 subfamilies.In the first one, focused on GH13_9, Geiger and coworkers (contribution 5) present a new three-dimensional structure of the Escherichia coli α-glucan branching enzyme complexed with maltooctaose, suggesting a possible mechanism for transfer chain specificity also involving surface binding sites.Next, Møller and co-workers (contribution 6) explore the transglycosylation activity of GH13_13 limit dextrinase from barley using two approaches with different combination of donors and acceptors.Then, a long-awaited tertiary structure of the α-amylase from Drosophila melanogaster from subfamily GH13_15 is described by Aghajari, Da Lage and co-workers (contribution 7) together with its biochemical characterization and a discussion of its evolutionary implications.The next study by Woo, Park, and co-workers (contribution 8) is of extremely significant interest since it reveals a circular permutation in the domain C-with a C-A-B-A-C domain order-in the structure of the periplasmic α-amylase MalS from E. coli of subfamily GH13_19.The subsequent protein design process described by Saburi, Mori, and co-workers (contribution 9) demonstrates the role of Asn258 in the substrate specificity and transglucosylation activity of Bacillus sp.AHU2216 α-glucosidase from subfamily GH13_31.The papers focused on GH13 subfamilies are followed by a detailed in silico analysis of a group of amylolytic enzymes represented by cyclomaltodextrinase from Flavobacterium sp.no.92; this analysis being conducted by Mareček and Janeček (contribution 10), with the result of creating the novel subfamily GH13_46 for this group of enzymes possessing a CBM-like domain at their N-terminus and the segment MPDLN in their fifth conserved sequence region.
The last part of this Special Issue contains three original articles, two of which concern SBDs from the family CBM20 and the remaining one pertaining to a cyclo/maltodextrinbinding protein.First, Punt, Sidar, and co-workers (contribution 11) describe the GH13 α-amylase from Aspergillus niger with CBM20 from GH15 A. niger glucoamylase artificially designed at its N-terminus, achieving the improved binding and processing of various starches.Then, Svensson, Møller, and co-workers (contribution 12) demonstrate the impact of the CBM20 SBDs originating from GH77 Solanum tuberosum 4-α-glucanotransferase and GH15 A. niger glucoamylase fused to the N-terminus of the family GH77 Thermoproteus uzoniensis amylomaltase on its activity and starch product structure.In the final paper, structurefunction relationships are elucidated by Serrano-Posada, Centeno-Leija, and co-workers (contribution 13) in relation to a novel cyclo/maltodextrin binding protein playing a role in the cyclodextrin ABC importer system in Thermoanaerobacterales.

Conclusions
In conclusion, it should be said that such a single Special Issue of a journal cannot cover all particular aspects within any research field that would deserve to be covered; this would simply be impossible.Nevertheless, I am confident in the top-quality papers presented here covering various hot topics from the research field of amylolytic enzymes.
Finally, I would like to express my sincere appreciation to MDPI Managers responsible for the journal Molecules for their trust in this endeavour and for giving me the privilege to be the Guest Editor of this Special Issue.I would also like to thank both contributing authors and respected reviewers whose joined efforts gave rise to this collection of articles.Last but not least, I would like to mention and thank the generous help and support of my MDPI Editorial Assistant, Mr. Harry Zhong, who took excellent care with technical editorial matters during the preparation of this Special Issue.Now, please enjoy "Advances in Amylases"!