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<Header><Sender><SenderName>unglue.it</SenderName><EmailAddress>unglueit@ebookfoundation.org</EmailAddress></Sender><SentDateTime>20260708T080340Z</SentDateTime><MessageNote>Unglue.it gene duplication</MessageNote></Header><Product><RecordReference>it.unglue.work.522344.699273</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>699273</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Genetics and Genomics of the Brassicaceae</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Ryo Fujimoto</PersonName><PersonNameInverted>Fujimoto, Ryo</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Yoshinobu Takada</PersonName><PersonNameInverted>Takada, Yoshinobu</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>abiotic stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>allele-specific expression</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>allelic diversity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Bioinformatics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biology, Life Sciences</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bolting</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Brassica</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Brassica oleracea L. var. capitata</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Brassica rapa</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bulked segregant analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Chinese cabbage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cis-and trans-regulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>clubroot</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>DNA marker</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>dominant negative effect</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>expression analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flowering time gene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fusarium oxysporum f. sp. rapae</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fusarium wilt</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fusarium yellows</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gene duplication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gibberellin</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heterosis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>leaf trichome</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>marker-assisted selection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mathematics &amp; science</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pollen-stigma interaction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>QTL-seq</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quantitative trait locus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>R gene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>radish (Raphanus sativus L.)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Reference, information &amp; interdisciplinary subjects</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Research &amp; information: general</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RNA sequencing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RsFT</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RsSOC1</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>self-incompatibility</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SRO gene family</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Transcriptomics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>unilateral incompatibility</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>vernalization</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Brassica includes economically important vegetables. This Special Issue aims to provide a comprehensive overview of genomics and genetic analysis in Brassicaceae. There is particular interest in research on agronomically important traits.<br/><br/>Listed by <a href="https://unglue.it/work/522344/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://tieulgnu.s3.amazonaws.com/cache/ed/16/ed16c8def274d668121f188f5a9ccc25.jpg</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2022</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/369150/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.492087.659876</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>659876</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Genetics in Rice</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Katsuyuki Ichitani</PersonName><PersonNameInverted>Ichitani, Katsuyuki</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Ryuji Ishikawa</PersonName><PersonNameInverted>Ishikawa, Ryuji</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>abiotic stress</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Abortion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>African rice</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>allelic variation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>anther length</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Australian continent</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biology, Life Sciences</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>brown planthopper</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Cell Death</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cell elongation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>chloroplast genome</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Climate Change</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>d60</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>divergence</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>domestication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>evolutionary relationships</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fine-tuning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flowering time</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gene duplication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Genetic architecture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genetic potential</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genome sequencing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genomic resources</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Growth</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>haplotype</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>HS1</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hybrid weakness</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hypersensitive response</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>leaf yellowing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Life history</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Mathematics &amp; science</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>near-isogenic lines</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nuclear genome</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>O. barthii</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>O. meridionalis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>O. sativa</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Oryza</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Oryza sativa</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>outcrossing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>perennial species</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>phenotyping</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>photoperiod sensitivity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>phylogenetic relation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>phylogeny</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pyramided lines</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Reactive Oxygen Species</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Reference, information &amp; interdisciplinary subjects</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reproductive barrier</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Research &amp; information: general</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Resistance</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Rice</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Rice (Oryza sativa L.)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rice (Oryza sativa)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Salinity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sd1</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Seed shattering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>segregation distortion</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>semidawarf gene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SPAD</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>speciation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transcriptome and chloroplast</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Virulence</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>whole genome re-sequencing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>wild rice</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>yield component</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Rice feeds more than half of the world population. Its small genome size and ease in transformation have made rice the model crop in plant physiology and genetics. Molecular as well as Mendelian, forward as well as reverse genetics collaborate with each other to expand rice genetics. The wild relatives of rice belonging to the genus Oryza are distributed in Asia, Africa, Latin America and Oceania. They are good sources for the study of domestication and adaptation. Rice was the first crop to have its entire genome sequenced. With the help of the reference genome of Nipponbare and the advent of the next generation sequencer, the study of the rice genome has been accelerated. The mining of DNA polymorphism has permitted map-based cloning, QTL (quantitative trait loci) analysis, and the production of many kinds of experimental lines, such as recombinant inbred lines, backcross inbred lines, and chromosomal segment substitution lines. Inter- and intraspecific hybridization among Oryza species has opened the door to various levels of reproductive barriers ranging from prezygotic to postzygotic. This Special Issue contains eleven papers on genetic studies of rice and its relatives utilizing the rich genetic resources and/or rich genome information described above.<br/><br/>Listed by <a href="https://unglue.it/work/492087/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2020</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/382209/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.457535.619118</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>619118</IDValue></ProductIdentifier><ProductIdentifier><ProductIDType>03</ProductIDType><IDValue>9783039280728</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-NC-ND</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-nc-nd/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Major Histocompatibility Complex (MHC) in Health and Disease</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Jerzy K. Kulski</PersonName><PersonNameInverted>Kulski, Jerzy K.</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Takashi Shiina</PersonName><PersonNameInverted>Shiina, Takashi</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Johannes M. Dijkstra</PersonName><PersonNameInverted>Dijkstra, Johannes M.</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>3??5? mRNA turnover</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>5??3? RNA decay</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>?2m knockout mice</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ancestral haplotype</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ankylosing spondylitis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>antigen</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>antiviral immunity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>astrogliosis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>autoimmune disease</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Autoimmune Diseases</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Autoimmunity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Bactrian camel</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Birds</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>BK virus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bottleneck</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>camels</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Cancer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>competing endogenous RNA (ceRNA)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>computational analysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>concerted evolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>conservation 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polymorphism</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>HLA-B27</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>human endogenous retrovirus (HERV)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>human immunodeficiency virus (HIV)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>human leukocyte antigen-E</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>human papillomavirus (HPV)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>interferon ?</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>kidney transplantation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>KIR</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>KIR–HLA pairs</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Life history</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>lncRNA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>long-fragment super haplotype</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>long-read sequencing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Macaca fascicularis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>major histocompatibility complex</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>major histocompatibility complex (MHC)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Melanoma</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MHC</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MHC genes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MHC polymorphism</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MHC-I- and MHC-II-dependent inter-individual recognition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MHC-I-based mother-fetus recognition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>MHC-II-associated sperm-egg recognition</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>micro-mini-pigs</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>microglial reaction</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>miR1236</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>molecular dynamics simulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>n/a</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>NELF-E</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nephropathy</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nonclassical</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nonhuman primate models</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>NSDK</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nuclear kinase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Old World camels</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>orthology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>pedigree</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>phase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PNS/CNS interface</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polymorphism</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>polyomavirus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>production trait</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>promoter-proximal transcriptional pause</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>protocol</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>quantitative trait loci (QTL) studies</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>03</SubjectSchemeIdentifier><SubjectCode>RD</SubjectCode></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Régulation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>reproductive performance</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>risk genes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RLR</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RNA quality control</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RP1</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>selection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Single nucleotide polymorphism (SNP)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Ski complex</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SKI2W</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SKIV2L</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SNP</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>STK19</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SVA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>swine leukocyte antigen</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>synaptic covering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>T-cell receptor</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>T1DGC</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thema EDItEUR::P Mathematics and Science::PS Biology, life sciences</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>trichohepatoenteric syndrome</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>type 1 diabetes (T1D)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>viral peptides</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>The major histocompatibility complex (MHC) is a highly polymorphic and diverse multigene locus in all jawed vertebrate species that has an integral role in adaptive/innate immune systems, transplantation, and infectious and autoimmune diseases. The MHC supra-locus in mammalian vertebrates is usually partitioned into three distinct regions, known as classes I, II, and III, which, to varying extents, can be found conserved in nonmammalian jawed vertebrates, such as bony fish, amphibians, and bird lineages. The MHC gene region is characterized particularly by the expression of class I and class II glycoproteins that bind peptides derived from intracellular or extracellular antigens to circulating T-cells. While this expressed antigenic specificity remains the predominant interest with respect to MHC function and polymorphism in a population, a broader concept has emerged that examines the MHC as a multifunctional polymorphic controller that facilitates and regulates genome diversity with a much greater array of functions and effects than just MHC-restricted antigen recognition. This volume of 19 reprints presented by various experts and collected from the Special Issue of Cells on “MHC in Health and Disease” covers a broad range of topics on the genomic diversity of the MHC regulatory system in various vertebrate species, including MHC class I, II, and III genes; innate and adaptive immunity; neurology; transplantation; haplotypes; infectious and autoimmune diseases; fecundity; conservation; allelic lineages; and evolution. Taken together, these articles demonstrate the immense complexity and diversity of the MHC structure and function within and between different vertebrate species.<br/><br/>Listed by <a href="https://unglue.it/work/457535/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://encrypted.google.com/books?id=aCrQDwAAQBAJ&amp;printsec=frontcover&amp;img=1&amp;zoom=1</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>20200115</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/465963/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.491983.659772</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>659772</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Novel Enzyme and Whole-Cell Biocatalysts</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Anwar Sunna</PersonName><PersonNameInverted>Sunna, Anwar</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>B01</ContributorRole><PersonName>Richard Daniellou</PersonName><PersonNameInverted>Daniellou, Richard</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>2-keto-3-deoxygluconate</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>2G ethanol</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>5-hydroxymethylfurfural</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>5-hydroxymethylfuroic acid</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>aldohexose dehydrogenase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Antarctica and homology modelling</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Archaea</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>artificial neural network</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>asymmetric synthesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Bacillus subtilis lipase A</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bio-based chemicals</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>bioactive peptides</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biocatalysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Biodiesel</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>biotransformation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>carbohydrate active enzymes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Carbohydrates</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cell immobilization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cell surface display</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cell-free biocatalysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cell-free systems</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>chemo-enzymatic synthesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>chiral amine</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cofactor biosynthesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cofactor F420</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>cyclodextrin glucanotransferases</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>deazaflavin</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>DNase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>endo-β-1,3-glucanase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ene reductase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>engineered Escherichia coli</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>enzyme immobilization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>enzyme sourcing</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>esterase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>extremophile</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Fervidobacterium</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flavonoid glucuronides</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>flux optimization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>fuel properties</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>functionalized magnetic nanoparticles</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gene duplication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Glaciozyma antarctica</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Glycolysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>glycosidase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>glycoside hydrolase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>glycoside hydrolases</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>glycosyl transferases</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hemicellulose usage</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hormone-sensitive lipase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hydride transfer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hydrogenation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hydrolase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>immobilization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>immobilized lipase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>industrial enzymes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>interfacial activation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>keratin hydrolysis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>keratin waste</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>keratinase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>kinetic profile</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>kinetic profiles</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Lactobacillus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>laminarinase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>large-ring cyclodextrins</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>lipase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>lipase immobilization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>LysM domains</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Machine learning</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mannonate dehydratase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mannono-1,4-lactone</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>mannose metabolism</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metabolic pathways optimization</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>metalloprotease</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>multienzyme whole-cell biocatalyst</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>natural and non-natural multi-enzyme pathways</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>NDM-24</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>New Delhi metallo-β-lactamase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>old yellow enzyme</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>organic solvent</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>organic solvents</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>oxidoreductase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>peptidase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>platform chemicals</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Protein Engineering</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>psychrophilic yeast</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RNase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>RSM</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>S. cerevisiae</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Saccharolobus solfataricus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>secondary structure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>semi rational mutagenesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>semi-rational mutagenesis</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>serine protease</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>SHIF</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>solvent stability</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>substrate specificity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Sulfolobus solfataricus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Synthetic Biology</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology, engineering, agriculture</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Technology: general issues</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Thermoplasma acidophilum</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Thermostable</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thermostable enzymes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>thioglycosides</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transesterification</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>valorisation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>waste cooking oil</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>water activity</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>whole cells</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>α-methylbenzylamine</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>β-galactosidase</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ω-transaminase</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>The concept of a circular economy relies on waste reduction, valorization, and recycling. Global trends for “green” synthesis of chemicals have positioned the field of enzyme technology and biocatalysis (multi-enzymes and whole-cells) as an alternative for the synthesis of more social- and environmentally-responsible bio-based chemicals. Recent advances in synthetic biology, computational tools, and metabolic engineering have supported the discovery of new enzymes and the rational design of whole-cell biocatalysts. In this book, we highlight these current advances in the field of biocatalysis, with special emphasis on novel enzymes and whole-cell biocatalysts for applications in several industrial biotechnological applications.<br/><br/>Listed by <a href="https://unglue.it/work/491983/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>/static/images/generic_cover_larger.png</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI - Multidisciplinary Digital Publishing Institute</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>2020</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/465784/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product><Product><RecordReference>it.unglue.work.457569.619186</RecordReference><NotificationType>03</NotificationType><ProductIdentifier><ProductIDType>01</ProductIDType><IDTypeName>unglue.it edition id</IDTypeName><IDValue>619186</IDValue></ProductIdentifier><ProductIdentifier><ProductIDType>03</ProductIDType><IDValue>9783039283668</IDValue></ProductIdentifier><DescriptiveDetail><ProductComposition>00</ProductComposition><ProductForm>ED</ProductForm><ProductFormDetail>E107</ProductFormDetail><EpubLicense><EpubLicenseName>CC BY-NC-ND</EpubLicenseName><EpubLicenseExpression><EpubLicenseExpressionType>01</EpubLicenseExpressionType><EpubLicenseExpressionLink>https://creativecommons.org/licenses/by-nc-nd/3.0/</EpubLicenseExpressionLink></EpubLicenseExpression></EpubLicense><TitleDetail><TitleType>01</TitleType><TitleElement><TitleElementLevel>01</TitleElementLevel><TitleText>Repetitive DNA Sequences</TitleText></TitleElement></TitleDetail><Contributor><SequenceNumber>1</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Andrew G. Clark</PersonName><PersonNameInverted>Clark, Andrew G.</PersonNameInverted></Contributor><Contributor><SequenceNumber>2</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Daniel A. Barbash</PersonName><PersonNameInverted>Barbash, Daniel A.</PersonNameInverted></Contributor><Contributor><SequenceNumber>3</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Sarah E. Lower</PersonName><PersonNameInverted>Lower, Sarah E.</PersonNameInverted></Contributor><Contributor><SequenceNumber>4</SequenceNumber><ContributorRole>A01</ContributorRole><PersonName>Anne-Marie Dion-Côté</PersonName><PersonNameInverted>Dion-Côté, Anne-Marie</PersonNameInverted></Contributor><Language><LanguageRole>01</LanguageRole><LanguageCode>eng</LanguageCode></Language><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>alpha satellite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Alu</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Arms race</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>arthropods</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>B chromosomes</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>CENP-A</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>centromere</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>centromere drive</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>centromeric transcription</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>chromosome evolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>coevolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Database</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Drift</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Drosophila</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>endogenous retrovirus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>epigenetics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ERV</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>estrildidae</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>04</SubjectSchemeIdentifier><SubjectHeadingText>Evolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>GC-content</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gene duplication</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>gene evolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genetic conflict</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Genome</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genome annotation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genome assembly</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genome elimination</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genome evolution</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Genome Size</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>genomic conflict</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>germline</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>HeT-A and TART telomeric retrotransposons</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>heterochromatin</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>hobo</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>horizontal transfer</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>host genome</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>human satellites</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>I element</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>insulator</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>karyotype</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>LINE-1</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>LTR retrotransposons</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>ncRNAs (non coding RNAs)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nuclear rDNA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>nucleolus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>piRNA cluster</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Population genetics</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>PSR (Paternal sex ratio)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>repeat</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>repeated elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>repetitive DNA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>retrotransposons</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Rhino</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>rRNA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>satellite</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>satellite DNA</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>secondary structure</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Segregation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>selection</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>selfish elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>sequence variation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>structural variation</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Su(Hw)</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>super-Mendelian</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transcription</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transgene</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transposable element</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transposable elements</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>transposons</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>Uraeginthus cyanocephalus</SubjectHeadingText></Subject><Subject><SubjectSchemeIdentifier>20</SubjectSchemeIdentifier><SubjectHeadingText>zebra finch</SubjectHeadingText></Subject><AudienceRange><AudienceRangeQualifier>17</AudienceRangeQualifier><AudienceRangePrecision>03</AudienceRangePrecision><AudienceRangeValue>18</AudienceRangeValue></AudienceRange></DescriptiveDetail><CollateralDetail><TextContent><TextType>03</TextType><ContentAudience>00</ContentAudience><Text textformat="05"><div>Repetitive DNA is ubiquitous in eukaryotic genomes, and, in many species, comprises the bulk of the genome. Repeats include transposable elements that can self-mobilize and disperse around the genome, and tandemly-repeated satellite DNAs that increase in copy number due to replication slippage and unequal crossing over. Despite their abundance, repetitive DNA is often ignored in genomic studies due to technical challenges in their identification, assembly, and quantification. New technologies and methods are now providing the unprecedented power to analyze repetitive DNAs across diverse taxa. Repetitive DNA is of particular interest because it can represent distinct modes of genome evolution. Some repetitive DNA forms essential genome structures, such as telomeres and centromeres, which are required for proper chromosome maintenance and segregation, whereas others form piRNA clusters that regulate transposable elements; thus, these elements are expected to evolve under purifying selection. In contrast, other repeats evolve selfishly and produce genetic conflicts with their host species that drive adaptive evolution of host defense systems. However, the majority of repeats likely accumulate in eukaryotes in the absence of selection due to mechanisms of transposition and unequal crossing over. Even these neutral repeats may indirectly influence genome evolution as they reach high abundance. In this Special Issue, the contributing authors explore these questions from a range of perspectives.<br/><br/>Listed by <a href="https://unglue.it/work/457569/">Unglue.it</a>.</div></Text></TextContent><SupportingResource><ResourceContentType>01</ResourceContentType><ContentAudience>00</ContentAudience><ResourceMode>03</ResourceMode><ResourceVersion><ResourceForm>01</ResourceForm><ResourceVersionFeature><ResourceVersionFeatureType>01</ResourceVersionFeatureType><FeatureValue>D502</FeatureValue></ResourceVersionFeature><ResourceLink>https://encrypted.google.com/books?id=5nvUDwAAQBAJ&amp;printsec=frontcover&amp;img=1&amp;zoom=1</ResourceLink></ResourceVersion></SupportingResource></CollateralDetail><PublishingDetail><Publisher><PublishingRole>01</PublishingRole><PublisherName>MDPI</PublisherName></Publisher><PublishingStatus>00</PublishingStatus><PublishingDate><PublishingDateRole>01</PublishingDateRole><Date>20200305</Date></PublishingDate></PublishingDetail><ProductSupply><Market><Territory><RegionsIncluded>WORLD</RegionsIncluded></Territory></Market><SupplyDetail><Supplier><SupplierRole>11</SupplierRole><SupplierName>Unglue.it</SupplierName><Website><WebsiteRole>29</WebsiteRole><WebsiteDescription textformat="06">pdf file download</WebsiteDescription><WebsiteLink>https://unglue.it/download_ebook/309503/</WebsiteLink></Website></Supplier><ProductAvailability>20</ProductAvailability><Price><PriceType>01</PriceType><PriceAmount>0.00</PriceAmount><CurrencyCode>USD</CurrencyCode></Price></SupplyDetail></ProductSupply></Product></ONIXMessage>