Project description:Acholeplasma palmae overview

Project description:Complete genome sequence of Acholeplasma brassicae

Project description:Acholeplasma laildawii

Project description:Title:Complete Genome Sequence, Biological Activities, and Metabolomic Profiles of Mangrove-derived Streptomyces sp. SM1P Author: Risa Nofiani, Puji Ardiningsih, Rizky, Cantika Dylani Putri, Rifa Rakayati, Rudiyansyah, Elfahmi, Syamsurizal, Agus Sukito, Ario Betha Juanssilfero, Josephine Elizabeth Siregar, Andita Fitri Mutiara Rizki, Wihda Aisarul Azmi, Alexandra J. Weisberg, Taifo Mahmud7

Project description:Title:Complete Genome Sequence, Biological Activities, and Metabolomic Profiles of Mangrove-derived Streptomyces sp. SM1P Author: Risa Nofiani, Puji Ardiningsih, Rizky, Cantika Dylani Putri, Rifa Rakayati, Rudiyansyah, Elfahmi, Syamsurizal, Agus Sukito, Ario Betha Juanssilfero, Josephine Elizabeth Siregar, Andita Fitri Mutiara Rizki, Wihda Aisarul Azmi, Alexandra J. Weisberg, Taifo Mahmud

Project description:Zymobacter palmae overview

Project description:Burkholderia palmae JS23

Project description:The ideal genome sequence for medical interpretation is complete and diploid, capturing the full spectrum of genetic variation. Toward this end, there has been progress in discovery of single nucleotide polymorphism (SNP) and small (<10bp) insertion/deletions (indels), but annotation of larger structural variation (SV) including copy number variation (CNV) has been less comprehensive, even with available diploid sequence assemblies. We applied a multi-step sequence and microarray-based analysis to identify numerous previously unknown SVs within the first genome sequence reported from an individual.

Project description:The ideal genome sequence for medical interpretation is complete and diploid, capturing the full spectrum of genetic variation. Toward this end, there has been progress in discovery of single nucleotide polymorphism (SNP) and small (<10bp) insertion/deletions (indels), but annotation of larger structural variation (SV) including copy number variation (CNV) has been less comprehensive, even with available diploid sequence assemblies. We applied a multi-step sequence and microarray-based analysis to identify numerous previously unknown SVs within the first genome sequence reported from an individual.

Project description:The ideal genome sequence for medical interpretation is complete and diploid, capturing the full spectrum of genetic variation. Toward this end, there has been progress in discovery of single nucleotide polymorphism (SNP) and small (<10bp) insertion/deletions (indels), but annotation of larger structural variation (SV) including copy number variation (CNV) has been less comprehensive, even with available diploid sequence assemblies. We applied a multi-step sequence and microarray-based analysis to identify numerous previously unknown SVs within the first genome sequence reported from an individual.