Antonio Victor Campos Coelho, Rafael Sales de Albuquerque, Catarina Dos Santos Gomes, José Bandeira do Nascimento Junior, Gustavo Santos de Oliveira, Livia Maria Silva Moura, Luciana Souto Mofatto, Rafael Lucas Muniz Guedes, Rodrigo Araújo Sequeira Barreiro, Marcel Pinheiro Caraciolo, Ana Paula de Andrade Oliveira, Anne Caroline Barbosa Teixeira, Bruna Mascaro Cordeiro de Azevedo, Carolina Dias Carlos, Lucas Santos de Santana, Marina Cadena da Matta, Matheus Martinelli Lima, Nuria Bengala Zurro, Renata Yoshiko Yamada, Vivian Pedigone Cintra, Gabriela Pereira Campilongo, Gabriela Borges Cherulli Colichio, Renata Martins Ribeiro da Silva, Caio Robledo D'Angioli Costa Quaio, Carolina Araujo Moreno, Eduardo Perrone, Jéssica Grasiela Araújo Espolaor, Joana Rosa Marques Prota, José Ricardo Magliocco Ceroni, Kelin Chen, Luiza do Amaral Virmond, Marina de França Basto Silva, Michele Patricia Migliavacca, Renata Moldenhauer Minillo, Thiago Yoshinaga Tonholo Silva, Karla de Oliveira Pelegrino, Ana Luiza Garcia Cunha, Joziele de Souza Lima, Anete Sevciovic Grumach, Caio Parente Barbosa, Angelina Xavier Acosta, Paula Brito Corrêa, Denise Pontes Cavalcanti, Carlos Eduardo Steiner, Erlane Marques Ribeiro, Wallace William da Silva Meireles, Giselle Maria Araujo Felix Adjuto, Ida Vanessa Doederlein Schwartz, Têmis Maria Felix, Irma Cecilia Douglas Paes Barreto, Antonette Souto El Husny, Jussara Melo de Cerqueira Maia, Vera Maria Dantas, Lúcia Helena de Oliveira Cordeiro, Luiza Zagne Braz, Magda Maria Sales Carneiro Sampaio, Mara Lucia Schmitz Ferreira Santos, Marco Antonio Curiati, Maria Teresinha de Oliveira Cardoso, Maria Teresa Alves da Silva Rosa, Mariana Paes Leme Ferriani, Ester Silveira Ramos, Paula Teixeira Lyra, Raquel Tavares Boy da Silva, Anna Cândida Ximenes de Mendonça Sobreira, Tatiana Regia Suzana Amorim Boa Sorte, Melissa Rossi Calvão Dumas, Thaís Bomfim Teixeira, Vandré Cabral Gomes Carneiro, Patrícia Silva Mota, Tatiana Ferreira de Almeida, João Bosco Oliveira
{"title":"Genome Sequencing for the Diagnosis of Rare Disorders: The Brazilian Rare Genomes Project.","authors":"Antonio Victor Campos Coelho, Rafael Sales de Albuquerque, Catarina Dos Santos Gomes, José Bandeira do Nascimento Junior, Gustavo Santos de Oliveira, Livia Maria Silva Moura, Luciana Souto Mofatto, Rafael Lucas Muniz Guedes, Rodrigo Araújo Sequeira Barreiro, Marcel Pinheiro Caraciolo, Ana Paula de Andrade Oliveira, Anne Caroline Barbosa Teixeira, Bruna Mascaro Cordeiro de Azevedo, Carolina Dias Carlos, Lucas Santos de Santana, Marina Cadena da Matta, Matheus Martinelli Lima, Nuria Bengala Zurro, Renata Yoshiko Yamada, Vivian Pedigone Cintra, Gabriela Pereira Campilongo, Gabriela Borges Cherulli Colichio, Renata Martins Ribeiro da Silva, Caio Robledo D'Angioli Costa Quaio, Carolina Araujo Moreno, Eduardo Perrone, Jéssica Grasiela Araújo Espolaor, Joana Rosa Marques Prota, José Ricardo Magliocco Ceroni, Kelin Chen, Luiza do Amaral Virmond, Marina de França Basto Silva, Michele Patricia Migliavacca, Renata Moldenhauer Minillo, Thiago Yoshinaga Tonholo Silva, Karla de Oliveira Pelegrino, Ana Luiza Garcia Cunha, Joziele de Souza Lima, Anete Sevciovic Grumach, Caio Parente Barbosa, Angelina Xavier Acosta, Paula Brito Corrêa, Denise Pontes Cavalcanti, Carlos Eduardo Steiner, Erlane Marques Ribeiro, Wallace William da Silva Meireles, Giselle Maria Araujo Felix Adjuto, Ida Vanessa Doederlein Schwartz, Têmis Maria Felix, Irma Cecilia Douglas Paes Barreto, Antonette Souto El Husny, Jussara Melo de Cerqueira Maia, Vera Maria Dantas, Lúcia Helena de Oliveira Cordeiro, Luiza Zagne Braz, Magda Maria Sales Carneiro Sampaio, Mara Lucia Schmitz Ferreira Santos, Marco Antonio Curiati, Maria Teresinha de Oliveira Cardoso, Maria Teresa Alves da Silva Rosa, Mariana Paes Leme Ferriani, Ester Silveira Ramos, Paula Teixeira Lyra, Raquel Tavares Boy da Silva, Anna Cândida Ximenes de Mendonça Sobreira, Tatiana Regia Suzana Amorim Boa Sorte, Melissa Rossi Calvão Dumas, Thaís Bomfim Teixeira, Vandré Cabral Gomes Carneiro, Patrícia Silva Mota, Tatiana Ferreira de Almeida, João Bosco Oliveira","doi":"10.1016/j.xhgg.2026.100624","DOIUrl":null,"url":null,"abstract":"<p><p>Genome Sequencing (GS) has emerged as a transformative tool in the diagnosis of rare diseases with complex phenotypes. This technology uncovers structural, intronic, non-coding, and mitochondrial variants that traditional methods might miss, thus facilitating the understanding of the underlying genomic basis of human disorders. We enrolled 10305 patients with suspected rare diseases or hereditary cancer risk syndromes from 21 centers throughout Brazil. Their genomes were sequenced with short, paired-end reads, and diagnostic reports were provided for 9448 of these patients. The overall diagnostic yield was 35.6%, and 4.6% of all positive reports had GS-exclusive findings (e.g. short copy number variants overlapping fewer than three exons, deep intronic variants, short tandem repeats expansions, mitochondrial structural variants - usually not detected by other diagnostic tests such as exome sequencing). Preliminary analysis of transcriptome sequencing (TS) or long-read GS combined with the GS interpretation provided a small but welcome improvement in diagnostic yield (0.1% and 1.0% of positive reports, respectively). Almost 3200 variant/phenotype interpretations were submitted to ClinVar. GS is proving to be an invaluable resource for shortening the diagnostic odyssey of patients with rare diseases, providing crucial genomic diagnostics, and enriching genetic databases with variant interpretations from underrepresented populations. Therefore, GS has the potential to significantly enhance the precision of healthcare in genetically diverse populations.</p>","PeriodicalId":34530,"journal":{"name":"HGG Advances","volume":" ","pages":"100624"},"PeriodicalIF":3.6000,"publicationDate":"2026-05-04","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"HGG Advances","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1016/j.xhgg.2026.100624","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"GENETICS & HEREDITY","Score":null,"Total":0}
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Abstract
Genome Sequencing (GS) has emerged as a transformative tool in the diagnosis of rare diseases with complex phenotypes. This technology uncovers structural, intronic, non-coding, and mitochondrial variants that traditional methods might miss, thus facilitating the understanding of the underlying genomic basis of human disorders. We enrolled 10305 patients with suspected rare diseases or hereditary cancer risk syndromes from 21 centers throughout Brazil. Their genomes were sequenced with short, paired-end reads, and diagnostic reports were provided for 9448 of these patients. The overall diagnostic yield was 35.6%, and 4.6% of all positive reports had GS-exclusive findings (e.g. short copy number variants overlapping fewer than three exons, deep intronic variants, short tandem repeats expansions, mitochondrial structural variants - usually not detected by other diagnostic tests such as exome sequencing). Preliminary analysis of transcriptome sequencing (TS) or long-read GS combined with the GS interpretation provided a small but welcome improvement in diagnostic yield (0.1% and 1.0% of positive reports, respectively). Almost 3200 variant/phenotype interpretations were submitted to ClinVar. GS is proving to be an invaluable resource for shortening the diagnostic odyssey of patients with rare diseases, providing crucial genomic diagnostics, and enriching genetic databases with variant interpretations from underrepresented populations. Therefore, GS has the potential to significantly enhance the precision of healthcare in genetically diverse populations.
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