Your search keyword '"Massimo Delledonne"' showing total 270 results

1. Enhancer hijacking at the ARHGAP36 locus is associated with connective tissue to bone transformation

Author

Uirá Souto Melo, Jerome Jatzlau, Cesar A. Prada-Medina, Elisabetta Flex, Sunhild Hartmann, Salaheddine Ali, Robert Schöpflin, Laura Bernardini, Andrea Ciolfi, M-Hossein Moeinzadeh, Marius-Konstantin Klever, Aybuge Altay, Pedro Vallecillo-García, Giovanna Carpentieri, Massimo Delledonne, Melanie-Jasmin Ort, Marko Schwestka, Giovanni Battista Ferrero, Marco Tartaglia, Alfredo Brusco, Manfred Gossen, Dirk Strunk, Sven Geißler, Stefan Mundlos, Sigmar Stricker, Petra Knaus, Elisa Giorgio, and Malte Spielmann

Subjects

Topologically associating domain, ARHGAP36, bone formation, enhancer, chromatin conformation, chromatin conformation, Multidisciplinary, Topologically associating domain, General Physics and Astronomy, enhancer, General Chemistry, ARHGAP36, General Biochemistry, Genetics and Molecular Biology, bone formation

Abstract

Heterotopic ossification is a disorder caused by abnormal mineralization of soft tissues in which signaling pathways such as BMP, TGFβ and WNT are known key players in driving ectopic bone formation. Identifying novel genes and pathways related to the mineralization process are important steps for future gene therapy in bone disorders. In this study, we detect an inter-chromosomal insertional duplication in a female proband disrupting a topologically associating domain and causing an ultra-rare progressive form of heterotopic ossification. This structural variant lead to enhancer hijacking and misexpression of ARHGAP36 in fibroblasts, validated here by orthogonal in vitro studies. In addition, ARHGAP36 overexpression inhibits TGFβ, and activates hedgehog signaling and genes/proteins related to extracellular matrix production. Our work on the genetic cause of this heterotopic ossification case has revealed that ARHGAP36 plays a role in bone formation and metabolism, outlining first details of this gene contributing to bone-formation and -disease.

Published

2023

2. A new semi-slug of the genus Microparmarion from Brunei, discovered, described and DNA-barcoded on citizen-science 'taxon expeditions' (Gastropoda, Stylommatophora, Ariophantidae)

Author

Menno Schilthuizen, Simon Berenyi, Nurilya Ezzwan, Nur Izzah Hamdani, Harrison Wu, Luca De Antoni, Leonardo Vincenzi, Werner de Gier, Anthonie van Peursen, Iva Njunjić, Massimo Delledonne, Ferry Slik, Ulmar Grafe, and Daniele Cicuzza

Subjects

Helicina, new species, Ecology, Gastropoda, Eupulmonata, semi-slugs, Biota, Microparmarion, Tectipleura, Limacoidei, taxonomy, Stylommatophora, Mollusca, Heterobranchia, Borneo, Helicarionoidea, land snails, Ostracolethinae, Euthyneura, Animalia, Ariophantidae, malacology, Ecology, Evolution, Behavior and Systematics

Abstract

During citizen-science expeditions to the Ulu Temburong National Park, Brunei, several individuals were collected of a semi-slug species of the genus Microparmarion that, based on morphology and in-the-field DNA-barcoding, was found to be an undescribed species. In this paper, we describe Microparmarion sallehi Wu, Ezzwan & Hamdani, n. sp., after field centre supervisor Md Salleh Abdullah Bat. We provide details on the external and internal reproductive morphology, the shell and the ecology of the type locality, as well as a diagnosis comparing it with related species. DNA barcodes were generated for five individuals and used for a phylogenetic reconstruction. Microparmarion sallehi sp. n. and M. exquadratus Schilthuizen et al., 2019 so far are the only Bornean species of the genus that live in lowland forest; other species are found in montane forests.

Published

2023

3. Data from Centrosome Linker–induced Tetraploid Segregation Errors Link Rhabdoid Phenotypes and Lethal Colorectal Cancers

Author

Massimo Pancione, Aldo Scarpa, Vittorio Colantuoni, Michele Ceccarelli, Giuseppe Viglietto, Luca Mastracci, Federica Grillo, Fulvio D'angelo, Fortunato Lonardo, Claudio Ghimenton, Guido Giordano, Massimo Delledonne, Luciano Xumerle, Marianna Garonzi, Enrico Molinari, Jacopo Giuliani, Lina Sabatino, Tommaso Colangelo, Elisabetta Baritono, Duarte Mendes Oliveira, Donatella Malanga, Michele Simbolo, Carmelo Laudanna, Ugnius Mickys, Hye Seung Han, Alberto Ferrarini, Pietro Parcesepe, Erminia Manfrin, and Andrea Remo

Abstract

Centrosome anomalies contribute to tumorigenesis, but it remains unclear how they are generated in lethal cancer phenotypes. Here, it is demonstrated that human microsatellite instable (MSI) and BRAFV600E-mutant colorectal cancers with a lethal rhabdoid phenotype are characterized by inactivation of centrosomal functions. A splice site mutation that causes an unbalanced dosage of rootletin (CROCC), a centrosome linker component required for centrosome cohesion and separation at the chromosome 1p36.13 locus, resulted in abnormally shaped centrosomes in rhabdoid cells from human colon tissues. Notably, deleterious deletions at 1p36.13 were recurrent in a subgroup of BRAFV600E-mutant and microsatellite stable (MSS) rhabdoid colorectal cancers, but not in classical colorectal cancer or pediatric rhabdoid tumors. Interfering with CROCC expression in near-diploid BRAFV600E-mutant/MSI colon cancer cells disrupts bipolar mitotic spindle architecture, promotes tetraploid segregation errors, resulting in a highly aggressive rhabdoid-like phenotype in vitro. Restoring near-wild-type levels of CROCC in a metastatic model harboring 1p36.13 deletion results in correction of centrosome segregation errors and cell death, revealing a mechanism of tolerance to mitotic errors and tetraploidization promoted by deleterious 1p36.13 loss. Accordingly, cancer cells lacking 1p36.13 display far greater sensitivity to centrosome spindle pole stabilizing agents in vitro. These data shed light on a previously unknown link between centrosome cohesion defects and lethal cancer phenotypes providing new insight into pathways underlying genome instability.Implications: Mis-segregation of chromosomes is a prominent feature of chromosome instability and intratumoral heterogeneity recurrent in metastatic tumors for which the molecular basis is unknown. This study provides insight into the mechanism by which defects in rootletin, a centrosome linker component causes tetraploid segregation errors and phenotypic transition to a clinically devastating form of malignant rhabdoid tumor. Mol Cancer Res; 16(9); 1385–95. ©2018 AACR.

Published

2023

4. Supplementary Tables 1-9 from Centrosome Linker–induced Tetraploid Segregation Errors Link Rhabdoid Phenotypes and Lethal Colorectal Cancers

Author

Massimo Pancione, Aldo Scarpa, Vittorio Colantuoni, Michele Ceccarelli, Giuseppe Viglietto, Luca Mastracci, Federica Grillo, Fulvio D'angelo, Fortunato Lonardo, Claudio Ghimenton, Guido Giordano, Massimo Delledonne, Luciano Xumerle, Marianna Garonzi, Enrico Molinari, Jacopo Giuliani, Lina Sabatino, Tommaso Colangelo, Elisabetta Baritono, Duarte Mendes Oliveira, Donatella Malanga, Michele Simbolo, Carmelo Laudanna, Ugnius Mickys, Hye Seung Han, Alberto Ferrarini, Pietro Parcesepe, Erminia Manfrin, and Andrea Remo

Abstract

Supplementary Table 1. Clinicopathological, immunohistochemical and molecular features of the 12 rhabdoid colorectal cancers7 Supplementary Table 2. Somatic mutations of candidate genes (15 out of 20 are reported) shared by the two rhabdoid cancers at exome sequencing Supplementary Table 3. Rhabdoid colorectal cancers (RC): molecular alterations, centrosome aberrations and ploidy Supplementary Table 4. Rhabdoid tumours of infants (RI): molecular alterations, centrosome aberrations, and ploidy Supplementary Table 5: Clinicopathologic and molecular features of classical colorectal cancers analyzed Supplementary Table 6. Sequencing and Reverse transcription PCR primers Supplementary Table 6B. SMARCB1 regions covered by the custom panel used for next-generation target sequencing Supplementary Table 7. CROCC regions covered by the custom panel used for next-generation targeted sequencing Supplementary Table 8. Antibodies employed and working conditions for immunohistochemistry, immunofluorescence or western blot analysis of tissues and cell lines Supplementary Table 9. Rhabdoid colorectal cancer reported in literature between 1993-2015

Published

2023

5. Supplementary Materials and Methods from Centrosome Linker–induced Tetraploid Segregation Errors Link Rhabdoid Phenotypes and Lethal Colorectal Cancers

Author

Massimo Pancione, Aldo Scarpa, Vittorio Colantuoni, Michele Ceccarelli, Giuseppe Viglietto, Luca Mastracci, Federica Grillo, Fulvio D'angelo, Fortunato Lonardo, Claudio Ghimenton, Guido Giordano, Massimo Delledonne, Luciano Xumerle, Marianna Garonzi, Enrico Molinari, Jacopo Giuliani, Lina Sabatino, Tommaso Colangelo, Elisabetta Baritono, Duarte Mendes Oliveira, Donatella Malanga, Michele Simbolo, Carmelo Laudanna, Ugnius Mickys, Hye Seung Han, Alberto Ferrarini, Pietro Parcesepe, Erminia Manfrin, and Andrea Remo

Abstract

The file contains supplementary Materials and Methods

Published

2023

6. Supplementary Figures 1-9 from Centrosome Linker–induced Tetraploid Segregation Errors Link Rhabdoid Phenotypes and Lethal Colorectal Cancers

Author

Massimo Pancione, Aldo Scarpa, Vittorio Colantuoni, Michele Ceccarelli, Giuseppe Viglietto, Luca Mastracci, Federica Grillo, Fulvio D'angelo, Fortunato Lonardo, Claudio Ghimenton, Guido Giordano, Massimo Delledonne, Luciano Xumerle, Marianna Garonzi, Enrico Molinari, Jacopo Giuliani, Lina Sabatino, Tommaso Colangelo, Elisabetta Baritono, Duarte Mendes Oliveira, Donatella Malanga, Michele Simbolo, Carmelo Laudanna, Ugnius Mickys, Hye Seung Han, Alberto Ferrarini, Pietro Parcesepe, Erminia Manfrin, and Andrea Remo

Abstract

S1. Whole exome sequencing analysis of two rhabdoid colorectal cancers (RC). S2. Non-silent somatic mutations in rhabdoid tumours are enriched in centrosome-microtubule components. S3. Effect of CROCC mutations on centrosome phenotype. S4. CROCC expression profiling in classical colorectal cancers (CRCs). S5. Allelic loss at the 1p36.13 locus correlates with chromosomal instability in colorectal cancer cells. S6. Centrosome and chromosome instability in colorectal cancer cells. S7. Mitotic errors and impaired cell cycle caused by stable CROCC depletion in RKO cells. S8. Invasive behavior of colorectal cancer cells triggered by CROCC depletion. S9. Mitotic aberrations suppressed by CROCC or microtubule stabilizing agents in metastatic T84 and HT29 colorectal cancer cells.

Published

2023

7. Skewed X-chromosome inactivation in unsolved neurodevelopmental disease cases can guide re-evaluation For X-linked genes

Author

Chiara Giovenino, Slavica Trajkova, Lisa Pavinato, Simona Cardaropoli, Verdiana Pullano, Enza Ferrero, Elena Sukarova-Angelovska, Silvia Carestiato, Paola Salmin, Antonina Rinninella, Anthony Battaglia, Luca Bertoli, Antonio Fadda, Flavia Palermo, Diana Carli, Alessandro Mussa, Paola Dimartino, Alessandro Bruselles, Tawfiq Froukh, Giorgia Mandrile, Barbara Pasini, Silvia De Rubeis, Joseph D. Buxbaum, Tommaso Pippucci, Marco Tartaglia, Marzia Rossato, Massimo Delledonne, Giovanni Battista Ferrero, and Alfredo Brusco

Subjects

neurodevelopmental disorde, Xdrop long-DNA technology, neurodevelopmental disorde, X skewed inactivation, X linked disorders, exome, Xdrop long-DNA technology, Genetics, X skewed inactivation, X linked disorders, Genetics (clinical), exome

Published

2023

8. Structural Refinement by Direct Mapping Reveals Assembly Inconsistencies near Hi-C Junctions

Author

Luca Marcolungo, Leonardo Vincenzi, Matteo Ballottari, Michela Cecchin, Emanuela Cosentino, Thomas Mignani, Antonina Limongi, Irene Ferraris, Matteo Orlandi, Marzia Rossato, and Massimo Delledonne

Subjects

assembly refinement, optical mapping, de novo genome assembly, Hi-C, Ecology, Plant Science, Ecology, Evolution, Behavior and Systematics

Abstract

High-throughput chromosome conformation capture (Hi-C) is widely used for scaffolding in de novo assembly because it produces highly contiguous genomes, but its indirect statistical approach can introduce connection errors. We employed optical mapping (Bionano Genomics) as an orthogonal scaffolding technology to assess the structural solidity of Hi-C reconstructed scaffolds. Optical maps were used to assess the correctness of five de novo genome assemblies based on long-read sequencing for contig generation and Hi-C for scaffolding. Hundreds of inconsistencies were found between the reconstructions generated using the Hi-C and optical mapping approaches. Manual inspection, exploiting raw long-read sequencing data and optical maps, confirmed that several of these conflicts were derived from Hi-C joining errors. Such misjoins were widespread, involved the connection of both small and large contigs, and even overlapped annotated genes. We conclude that the integration of optical mapping data after, not before, Hi-C-based scaffolding, improves the quality of the assembly and limits reconstruction errors by highlighting misjoins that can then be subjected to further investigation.

Published

2023

9. An isoform of the giant protein titin is a master regulator of human T lymphocyte trafficking

Author

Lara Toffali, Beatrice D’Ulivo, Cinzia Giagulli, Alessio Montresor, Elena Zenaro, Massimo Delledonne, Marzia Rossato, Barbara Iadarola, Andrea Sbarbati, Paolo Bernardi, Gabriele Angelini, Barbara Rossi, Nicola Lopez, Wolfgang A. Linke, Andreas Unger, Dario Di Silvestre, Louise Benazzi, Antonella De Palma, Sara Motta, Gabriela Constantin, Pierluigi Mauri, and Carlo Laudanna

Subjects

adhesion, leukocyte trafficking, integrin activation, cell deformability, chemokine, CP: Immunology, titin, microvilli, migration, selectin, General Biochemistry, Genetics and Molecular Biology, signal transduction

Published

2023

10. CRISPR/Cas9-Mediated Enrichment Coupled to Nanopore Sequencing Provides a Valuable Tool for the Precise Reconstruction of Large Genomic Target Regions

Author

Giulia Lopatriello, Simone Maestri, Massimiliano Alfano, Roberto Papa, Valerio Di Vittori, Luca De Antoni, Elisa Bellucci, Alice Pieri, Elena Bitocchi, Massimo Delledonne, and Marzia Rossato

Subjects

variant calling, Organic Chemistry, General Medicine, de novo assembly, Catalysis, Cas9-tiling enrichment, Computer Science Applications, Inorganic Chemistry, nanopore sequencing, pod-shattering, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Complete and accurate identification of genetic variants associated with specific phenotypes can be challenging when there is a high level of genomic divergence between individuals in a study and the corresponding reference genome. We have applied the Cas9-mediated enrichment coupled to nanopore sequencing to perform a targeted de novo assembly and accurately reconstruct a genomic region of interest. This approach was used to reconstruct a 250-kbp target region on chromosome 5 of the common bean genome (Phaseolus vulgaris) associated with the shattering phenotype. Comparing a non-shattering cultivar (Midas) with the reference genome revealed many single-nucleotide variants and structural variants in this region. We cut five 50-kbp tiled sub-regions of Midas genomic DNA using Cas9, followed by sequencing on a MinION device and de novo assembly, generating a single contig spanning the whole 250-kbp region. This assembly increased the number of Illumina reads mapping to genes in the region, improving their genotypability for downstream analysis. The Cas9 tiling approach for target enrichment and sequencing is a valuable alternative to whole-genome sequencing for the assembly of ultra-long regions of interest, improving the accuracy of downstream genotype–phenotype association analysis.

Published

2023

11. Skewed X-chromosome Inactivation in Unsolved Neurodevelopmental Disease Cases Can Guide Re-evaluation for X-linked Genes

Author

Alfredo Brusco, Chiara Giovenino, Slavica Trajkova, Lisa Pavinato, Simona Cardaropoli, Verdiana Pullano, Elena Sukarova-Angelovska, Silvia Carestiato, Paola Salmin, Antonina Rinninella, Anthony Battaglia, Luca Bertoli, Antonio Fadda, Flavia Palermo, Diana Carli, Alessandro Mussa, Paola Dimartino, Alessandro Bruselles, Tawfiq froukh, Giorgia Mandrile, Barbara Pasini, Silvia De Rubeis, Joseph Buxbaum, Tommaso Pippucci, Marco Tartaglia, Marzia Rossato, Massimo Delledonne, and Giovanni Battista Ferrero

Abstract

Despite major technical and genetic advances, more than half of the neurodevelopmental disorders (NDDs) cases remain undiagnosed. We explored the frequency of non-random XCI in the mothers of male patients and in affected females from a clinically heterogeneous cohort of unsolved NDD cases, negative at FRAXA, chromosomal microarray analysis and Trio Exome Sequencing. We hypothesize that an unbalanced XCI could unmask previously discarded genetic variants on the X chromosome connected both to XCI and NDD. A multiplex fluorescent-PCR-based assay was used to screen the XCI pattern after methylation sensitive HhaI digestion. Trio-based ES re-analysis was performed in families with skewed XCI occurrence. Linkage analysis and RT-PCR were used to further study the X-chromosome inactive allele. X-drop was used to define the chromosome deletion boundaries. We found a skewed XCI (>90%) in 16/186 mothers of affected NDD males (8.6%) and 12/90 female patients (13.3%), far beyond the expected XCI in normal population (3.6%, OR=4.10; OR=2.51). Reanalyzing ES and clinical data, we solved 7/28 cases (25%). These included variants in the KDM5C, PDZD4, PHF6, TAF1, OTUD5, and ZMYM3, and a genomic deletion spanning exons 3-4 of the ATRX gene. The identification of a skewed XCI is an easy assay that can help selecting a subgroup of patients for the re-evaluation of X-linked variants, improving the diagnostic yield in NDD patients, and allowing the identification of new X-linked disorders.

Published

2022

12. Author response: Characterization of full-length CNBP expanded alleles in myotonic dystrophy type 2 patients by Cas9-mediated enrichment and nanopore sequencing

Author

Luca De Antoni, Massimiliano Alfano, Federica Centofanti, Virginia Veronica Visconti, Simone Maestri, Chiara Degli Esposti, Roberto Massa, Maria Rosaria D'Apice, Giuseppe Novelli, Massimo Delledonne, Annalisa Botta, and Marzia Rossato

Published

2022

13. A new giant keelback slug of the genus Limax from the Balkans, described by citizen scientists

Author

Menno Schilthuizen, Cameron Thompson, Rick de Vries, Anthonie van Peursen, Marta Paterno, Simone Maestri, Luca Marcolongo, Chiara Esposti, Massimo Delledonne, and Iva Njunjić

Subjects

taxonomy, The Balkans, Ecology, genitalia, Limacidae, slugs, malacology, Ecology, Evolution, Behavior and Systematics

Abstract

Despite their large size, striking colouration and genital extravagance, the taxonomy of the European giant keelback slugs of the genus Limax is still poorly understood. Preliminary morphological and molecular data suggest that many unnamed or unrecognised species exist, especially in the Alps, the Mediterranean and the Balkans. We organised a citizen science expedition to Durmitor National Park in Montenegro and discovered a new species, genetically distinct, but morphologically similar to the sympatric L. cinereoniger Wolf 1803 and describe it as L. pseudocinereoniger.

Published

2022

14. CRISPR-Cas9-based repeat depletion for the high-throughput genotyping of complex plant genomes

Author

Marzia Rossato, Luca Marcolungo, Luca De Antoni, Giulia Lopatriello, Elisa Bellucci, Gaia Cortinovis, Giulia Frascarelli, Laura Nanni, Elena Bitocchi, Valerio Di Vittori, Leonardo Vincenzi, Filippo Lucchini, Kirstin E. Bett, Larissa Ramsay, David James Konkin, Massimo Delledonne, and Roberto Papa

Subjects

repetitive elements, high-throughput sequencing library, sequencing-based genotyping, Genetics, CRISPR-Cas9, Genetics (clinical), repetitive elements, CRISPR-Cas9, sequencing-based genotyping, high-throughput sequencing library

Abstract

High-throughput genotyping enables the large-scale analysis of genetic diversity in population genomics and genomewide association studies that combine the genotypic and phenotypic characterization of large collections of accessions. Sequencing-based approaches for genotyping are progressively replacing traditional genotyping methods due to the lower ascertainment bias. However, genome-wide genotyping based on sequencing becomes expensive in species with large genomes and a high proportion of repetitive DNA. Here we describe the use of CRISPR/Cas9 technology to deplete repetitive elements in the 3.76-Gb genome of lentil (Lens culinaris), 84% consisting of repeats, thus concentrating the sequencing data on coding and regulatory regions (single-copy regions). We designed a custom set of 566,766 gRNAs targeting 2.9 Gbp of repeats and excluding repetitive regions overlapping annotated genes and putative regulatory elements based on ATAC-Seq data. The novel depletion method removed ∼40% of reads mapping to repeats, increasing those mapping to single-copy regions by ∼2.6-fold. When analyzing 25 million fragments, this repeat-to-single-copy shift in the sequencing data increased the number of genotyped bases of ∼10-fold compared to non-depleted libraries. In the same condition, we were also able to identify ∼12-fold more genetic variants in the single-copy regions and increased the genotyping accuracy by rescuing thousands of heterozygous variants that otherwise would be missed due to low coverage. The method performed similarly regardless of the multiplexing level, type of library or genotypes, including different cultivars and a closely-related species (L. orientalis). Our results demonstrated that CRISPR/Cas9-driven repeat depletion focuses sequencing data on meaningful genomic regions, thus improving high-density and genome-wide genotyping in large and repetitive genomes.

Published

2023

15. The Physical Activity and Nutritional INfluences in Ageing (PANINI) Toolkit: a standardized approach towards physical activity and nutritional assessment of older adults

Author

Keenan A. Ramsey, Carel G. M. Meskers, Marijke C. Trappenburg, Maria Giulia Bacalini, Massimo Delledonne, Paolo Garagnani, Carolyn Greig, Victor Kallen, Nico van Meeteren, Natal van Riel, Nadine Correia Santos, Sarianna Sipilä, Janice L. Thompson, Anna C. Whittaker, Andrea B. Maier, Universidade do Minho, Rehabilitation medicine, AMS - Ageing & Vitality, AMS - Rehabilitation & Development, Amsterdam Neuroscience - Neurovascular Disorders, Internal medicine, APH - Aging & Later Life, Eindhoven MedTech Innovation Center, Systems Biology and Metabolic Disease, Computational Biology, EAISI Health, Anesthesiology, Experimental Vascular Medicine, ACS - Microcirculation, and AGEM - Amsterdam Gastroenterology Endocrinology Metabolism

Subjects

standardization, Science & Technology, Leadership and Management, geriatric assessment, arviointimenetelmät, Physical activity, Health Policy, physical activity, Health Informatics, SDG 3 – Goede gezondheid en welzijn, aged, nutrition, Geriatric assessment, Standardization, fyysinen kunto, Health Information Management, SDG 3 - Good Health and Well-being, standardointi, ravitsemus, arviointi, ikääntyneet, fyysinen aktiivisuus, Aged, Nutrition

Abstract

Assessing multiple domains of health in older adults requires multidimensional and large datasets. Consensus on definitions, measurement protocols and outcome measures is a prerequisite. The Physical Activity and Nutritional INfluences In Ageing (PANINI) Toolkit aims to provide a standardized toolkit of best-practice measures for assessing health domains of older adults with an emphasis on nutrition and physical activity. The toolkit was drafted by consensus of multidisciplinary and pan-European experts on ageing to standardize research initiatives in diverse populations within the PANINI consortium. Domains within the PANINI Toolkit include socio-demographics, general health, nutrition, physical activity and physical performance and psychological and cognitive health. Implementation across various countries, settings and ageing populations has proven the feasibility of its use in research. This multidimensional and standardized approach supports interoperability and re-use of data, which is needed to optimize the coordination of research efforts, increase generalizability of findings and ultimately address the challenges of ageing., This work was supported by the European Union’s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant agreement No. 675003. http://www.birmingham.ac.uk/panini.

Published

2022

16. Characterization of full-length CNBP expanded alleles in myotonic dystrophy type 2 patients by Cas9-mediated enrichment and nanopore sequencing

Author

Massimiliano Alfano, Luca De Antoni, Federica Centofanti, Virginia Veronica Visconti, Simone Maestri, Chiara Degli Esposti, Roberto Massa, Maria Rosaria D’Apice, Giuseppe Novelli, Massimo Delledonne, Annalisa Botta, and Marzia Rossato

Abstract

Myotonic dystrophy type 2 (DM2) is caused by CCTG repeat expansions in the CNBP gene, comprising 75 to >11,000 units and featuring extensive mosaicism, making it challenging to sequence fully-expanded alleles. To overcome these limitations, we used PCR-free Cas9-mediated nanopore sequencing to characterize CNBP repeat expansions at the single-nucleotide level in nine DM2 patients. The length of normal and expanded alleles can be assessed precisely using this strategy, agreeing with traditional methods, and revealing the degree of mosaicism. We also sequenced an entire ∼50-kbp expansion, which has not been achieved previously for DM2 or any other repeat-expansion disorders. Our approach precisely counted the repeats and identified the repeat pattern for both short interrupted and uninterrupted alleles. Interestingly, in the expanded alleles, only two DM2 samples featured the expected pure CCTG repeat pattern, while the other seven presented also TCTG blocks at the 3′ end, which have not been reported before in DM2 patients, but confirmed hereby with orthogonal methods. The demonstrated approach simultaneously determines repeat length, structure/motif and the extent of somatic mosaicism, promising to improve the molecular diagnosis of DM2 and achieve more accurate genotype– phenotype correlations for the better stratification of DM2 patients in clinical trials.

Published

2022

17. Characterization of full-length

Author

Massimiliano, Alfano, Luca, De Antoni, Federica, Centofanti, Virginia Veronica, Visconti, Simone, Maestri, Chiara, Degli Esposti, Roberto, Massa, Maria Rosaria, D'Apice, Giuseppe, Novelli, Massimo, Delledonne, Annalisa, Botta, and Marzia, Rossato

Subjects

Nanopore Sequencing, Humans, Myotonic Dystrophy, RNA-Binding Proteins, CRISPR-Cas Systems, Alleles, Genetic Association Studies

Abstract

Myotonic dystrophy type 2 (DM2) is caused by CCTG repeat expansions in the

Published

2022

18. Pod indehiscence in common bean is associated with the fine regulation ofPvMYB26

Author

Giuseppina Logozzo, Maria L. Murgia, Elena Bitocchi, Juan J. Ferreira, Massimo Delledonne, Marzia Rossato, Björn Usadel, Saleh Alseekh, Laura Nanni, Valerio Di Vittori, Arun Sampathkumar, Chunming Xu, Fabio Fiorani, Giovanna Attene, Alisdair R. Fernie, Elisa Bellucci, Concetta De Quattro, Roberto Papa, Tania Gioia, Domenico Rau, Anja Fröhlich, Monica Rodriguez, Stefania Marzario, and Ana Campa

Subjects

0106 biological sciences, 0301 basic medicine, Physiology, Seed dispersal, Quantitative Trait Loci, Population, Introgression, Locus (genetics), Plant Science, pod anatomy, Dehiscence, 01 natural sciences, 03 medical and health sciences, Abscission, Phaseolus vulgaris L, Botany, Common bean, convergent evolution, education, Phaseolus, education.field_of_study, genome-wide association study, biology, AcademicSubjects/SCI01210, MYB26, pod shattering, biology.organism_classification, Research Papers, ddc:580, 030104 developmental biology, Point of delivery, Crop Molecular Genetics, introgression lines, Seeds, gene expression, 010606 plant biology & botany

Abstract

Linkage mapping and histological and expression pattern analyses in pods identified PvMYB26 as the best candidate gene for pod indehiscence, mediated by a non-functional abscission layer in the pod., In legumes, pod shattering occurs when mature pods dehisce along the sutures, and detachment of the valves promotes seed dispersal. In Phaseolus vulgaris (L)., the major locus qPD5.1-Pv for pod indehiscence was identified recently. We developed a BC4/F4 introgression line population and narrowed the major locus down to a 22.5 kb region. Here, gene expression and a parallel histological analysis of dehiscent and indehiscent pods identified an AtMYB26 orthologue as the best candidate for loss of pod shattering, on a genomic region ~11 kb downstream of the highest associated peak. Based on mapping and expression data, we propose early and fine up-regulation of PvMYB26 in dehiscent pods. Detailed histological analysis establishes that pod indehiscence is associated with the lack of a functional abscission layer in the ventral sheath, and that the key anatomical modifications associated with pod shattering in common bean occur early during pod development. We finally propose that loss of pod shattering in legumes resulted from histological convergent evolution and that it is the result of selection at orthologous loci.

Published

2020

19. A molecular signature associated with prolonged survival in glioblastoma patients treated with regorafenib

Author

Giuseppe Lippi, Stefano Indraccolo, Salvatore Benfatto, Chiara Scapoli, Marica Eoli, Massimo Delledonne, Mario Caccese, Toni Ibrahim, Gianfranco Di Gennaro, Denise Lavezzari, Alba A. Brandes, Marzia Rossato, Alessandra Santangelo, Maria Cristina Dechecchi, Giulio Cabrini, Roberta Rudà, Giuseppe Lombardi, Roberto Gambari, Vittorina Zagonel, Gian Luca De Salvo, Ivan Lolli, Simona Rizzato, and Paola Prandini

Subjects

Oncology, Cancer Research, medicine.medical_specialty, Pyridines, NO, LS1_1, Transcriptome, chemistry.chemical_compound, CDKN1A, HIF1A, glioblastoma, miR-93-5p, regorafenib, CDKN1A, HIF1A, glioblastoma, miR-93-5p, regorafenib, Internal medicine, Regorafenib, LS2_2, microRNA, medicine, Humans, LS2_6, Progression-free survival, Adaptor Proteins, Signal Transducing, Phenylurea Compounds, Glioblastoma, MicroRNAs, Genetic heterogeneity, business.industry, Signal Transducing, Adaptor Proteins, Lomustine, medicine.disease, chemistry, Basic and Translational Investigations, Neurology (clinical), business, medicine.drug

Abstract

Background Patients with glioblastoma (GBM) have a dramatically poor prognosis. The recent REGOMA trial suggested an overall survival (OS) benefit of regorafenib in recurrent GBM patients. Considering the extreme genetic heterogeneity of GBMs, we aimed to identify molecular biomarkers predictive of differential response to the drug. Methods Total RNA was extracted from tumor samples of patients enrolled in the REGOMA trial. Genome-wide transcriptome and micro (mi)RNA profiles were associated with patients’ OS and progression-free survival. Results In the first step, a set of 11 gene transcripts (HIF1A, CTSK, SLC2A1, KLHL12, CDKN1A, CA12, WDR1, CD53, CBR4, NIFK-AS1, RAB30-DT) and 10 miRNAs (miR-93-5p, miR-203a-3p, miR-17-5p, let-7c-3p, miR-101-3p, miR-3607-3p, miR-6516-3p, miR-301a-3p, miR-23b-3p, miR-222-3p) was filtered by comparing survival between regorafenib and lomustine arms. In the second step, a mini-signature of 2 gene transcripts (HIF1A, CDKN1A) and 3 miRNAs (miR-3607-3p, miR-301a-3p, miR-93-5p) identified a subgroup of patients showing prolonged survival after regorafenib administration (median OS range, 10.6–20.8 mo). Conclusions The study provides evidence that a signature based on the expression of 5 biomarkers could help identify a subgroup of GBM patients exhibiting a striking survival advantage when treated with regorafenib. Although the presented results must be confirmed in larger replication cohorts, the study highlights potential biomarker options to help guide the clinical decision among regorafenib and other treatments in patients with relapsing GBM.

Published

2020

20. Genomic history of the Italian population recapitulates key evolutionary dynamics of both Continental and Southern Europeans

Author

Sebastiano Collino, Alberto Ferrarini, Armand Valsesia, Daniela Monti, Beatrice Arosio, Davide Pettener, Paolo Garagnani, Frederic Raymond, Jérôme Carayol, Julien Marquis, Stefania Sarno, Patrizia D'Aquila, Claudio Franceschi, Donata Luiselli, Sara De Fanti, Daniela Mari, Paolo Abondio, Matteo Ragno, Guido Alberto Gnecchi-Ruscone, Massimo Delledonne, Cristina Giuliani, Patrick Descombes, Marco Sazzini, Luciano Xumerle, Giuseppe Passarino, Chiara Pirazzini, Gastone Castellani, Alessio Boattini, Elena Marasco, Claudia Ojeda-Granados, Sazzini M., Abondio P., Sarno S., Gnecchi-Ruscone G.A., Ragno M., Giuliani C., De Fanti S., Ojeda-Granados C., Boattini A., Marquis J., Valsesia A., Carayol J., Raymond F., Pirazzini C., Marasco E., Ferrarini A., Xumerle L., Collino S., Mari D., Arosio B., Monti D., Passarino G., D'Aquila P., Pettener D., Luiselli D., Castellani G., Delledonne M., Descombes P., Franceschi C., and Garagnani P.

Subjects

Physiology, Plant Science, Human genetic variation, Demographic inference, Evolutionary medicine, Italian population, Polygenic adaptation, Whole-genome sequences, Gene flow, 0302 clinical medicine, Structural Biology, lcsh:QH301-705.5, 0303 health sciences, education.field_of_study, Genome, Cline (biology), Archaeology, Italy, Gene pool, General Agricultural and Biological Sciences, Research Article, Human, Biotechnology, Evolution, European Continental Ancestry Group, Population, Biology, White People, General Biochemistry, Genetics and Molecular Biology, Ancient, Evolution, Molecular, 03 medical and health sciences, Genetic variation, Humans, DNA, Ancient, education, Evolutionary dynamics, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Genome, Human, Genetic Variation, Molecular, DNA, Cell Biology, lcsh:Biology (General), Evolutionary biology, 030217 neurology & neurosurgery, Developmental Biology

Abstract

Background The cline of human genetic diversity observable across Europe is recapitulated at a micro-geographic scale by variation within the Italian population. Besides resulting from extensive gene flow, this might be ascribable also to local adaptations to diverse ecological contexts evolved by people who anciently spread along the Italian Peninsula. Dissecting the evolutionary history of the ancestors of present-day Italians may thus improve the understanding of demographic and biological processes that contributed to shape the gene pool of European populations. However, previous SNP array-based studies failed to investigate the full spectrum of Italian variation, generally neglecting low-frequency genetic variants and examining a limited set of small effect size alleles, which may represent important determinants of population structure and complex adaptive traits. To overcome these issues, we analyzed 38 high-coverage whole-genome sequences representative of population clusters at the opposite ends of the cline of Italian variation, along with a large panel of modern and ancient Euro-Mediterranean genomes. Results We provided evidence for the early divergence of Italian groups dating back to the Late Glacial and for Neolithic and distinct Bronze Age migrations having further differentiated their gene pools. We inferred adaptive evolution at insulin-related loci in people from Italian regions with a temperate climate, while possible adaptations to pathogens and ultraviolet radiation were observed in Mediterranean Italians. Some of these adaptive events may also have secondarily modulated population disease or longevity predisposition. Conclusions We disentangled the contribution of multiple migratory and adaptive events in shaping the heterogeneous Italian genomic background, which exemplify population dynamics and gene-environment interactions that played significant roles also in the formation of the Continental and Southern European genomic landscapes.

Published

2020

21. STArS (STrain-Amplicon-Seq), a targeted nanopore sequencing workflow for SARS-CoV-2 diagnostics and genotyping

Author

Simone Maestri, Valentina Grosso, Massimiliano Alfano, Denise Lavezzari, Chiara Piubelli, Zeno Bisoffi, Marzia Rossato, and Massimo Delledonne

Subjects

reverse transcription-quantitative polymerase chain reaction (RT-qPCR), SARS-CoV-2, SARS-CoV-2, reverse transcription-quantitative polymerase chain reaction (RT-qPCR), General Agricultural and Biological Sciences, General Biochemistry, Genetics and Molecular Biology

Abstract

Diagnostic tests based on reverse transcription–quantitative polymerase chain reaction (RT–qPCR) are the gold standard approach to detect severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection from clinical specimens. However, unless specifically optimized, this method is usually unable to recognize the specific viral strain responsible of coronavirus disease 2019, a crucial information that is proving increasingly important in relation to virus spread and treatment effectiveness. Even if some RT–qPCR commercial assays are currently being developed for the detection of viral strains, they focus only on single/few genetic variants that may not be sufficient to uniquely identify a specific strain. Therefore, genome sequencing approaches remain the most comprehensive solution for virus genotyping and to recognize viral strains, but their application is much less widespread due to higher costs. Starting from the well-established ARTIC protocol coupled to nanopore sequencing, in this work, we developed STArS (STrain-Amplicon-Seq), a cost/time-effective sequencing-based workflow for both SARS-CoV-2 diagnostics and genotyping. A set of 10 amplicons was initially selected from the ARTIC tiling panel, to cover: (i) all the main biologically relevant genetic variants located on the Spike gene; (ii) a minimal set of variants to uniquely identify the currently circulating strains; (iii) genomic sites usually amplified by RT–qPCR method to identify SARS-CoV-2 presence. PCR-amplified clinical samples (both positive and negative for SARS-CoV-2 presence) were pooled together with a serially diluted exogenous amplicon at known concentration and sequenced on a MinION device. Thanks to a scoring rule, STArS had the capability to accurately classify positive samples in agreement with RT–qPCR results, both at the qualitative and quantitative level. Moreover, the method allowed to effectively genotype strain-specific variants and thus also return the phylogenetic classification of SARS-CoV-2-postive samples. Thanks to the reduced turnaround time and costs, the proposed approach represents a step towards simplifying the clinical application of sequencing for viral genotyping, hopefully aiding in combatting the global pandemic.

Published

2022

22. Real-Time On-Site Diagnosis of Quarantine Pathogens in Plant Tissues by Nanopore-Based Sequencing

Author

Luca Marcolungo, Alessandro Passera, Simone Maestri, Elena Segala, Massimiliano Alfano, Francesca Gaffuri, Giovanni Marturano, Paola Casati, Piero Attilio Bianco, and Massimo Delledonne

Subjects

Microbiology (medical), Infectious Diseases, General Immunology and Microbiology, nanopore sequencing, diagnostics, Immunology and Allergy, MinION, subspecies, plant pathogen, Molecular Biology

Abstract

Rapid and sensitive assays for the identification of plant pathogens are necessary for the effective management of crop diseases. The main limitation of current diagnostic testing is the inability to combine broad and sensitive pathogen detection with the identification of key strains, pathovars, and subspecies. Such discrimination is necessary for quarantine pathogens, whose management is strictly dependent on genotype identification. To address these needs, we have established and evaluated a novel all-in-one diagnostic assay based on nanopore sequencing for the detection and simultaneous characterization of quarantine pathogens, using Xylella fastidiosa as a case study. The assay proved to be at least as sensitive as standard diagnostic tests and the quantitative results agreed closely with qPCR-based analysis. The same sequencing results also allowed discrimination between subspecies when present either individually or in combination. Pathogen detection and typing were achieved within 13 min of sequencing owing to the use of an internal control that allowed to stop sequencing when sufficient data had accumulated. These advantages, combined with the use of portable equipment, will facilitate the development of next-generation diagnostic assays for the efficient monitoring of other plant pathogens.

Published

2022

23. Characterization of full-length CNBP expanded alleles in myotonic dystrophy type 2 patients by Cas9-mediated enrichment and nanopore sequencing

Author

Luca De Antoni, Massimiliano Alfano, Federica Centofanti, Virginia Veronica Visconti, Simone Maestri, Chiara Degli Esposti, Roberto Massa, Maria Rosaria D'Apice, Giuseppe Novelli, Massimo Delledonne, Annalisa Botta, and Marzia Rossato

Subjects

Cas9-mediated enrichment, General Immunology and Microbiology, General Neuroscience, repeat expansion, RNA-Binding Proteins, General Medicine, General Biochemistry, Genetics and Molecular Biology, Nanopore Sequencing, Settore MED/03, genomics, Humans, Myotonic Dystrophy, CNBP gene, genetics, human, CRISPR-Cas Systems, myotonic dystrophy type 2, Alleles, Genetic Association Studies

Abstract

Myotonic dystrophy type 2 (DM2) is caused by CCTG repeat expansions in the CNBP gene, comprising 75 to >11,000 units and featuring extensive mosaicism, making it challenging to sequence fully expanded alleles. To overcome these limitations, we used PCR-free Cas9-mediated nanopore sequencing to characterize CNBP repeat expansions at the single-nucleotide level in nine DM2 patients. The length of normal and expanded alleles can be assessed precisely using this strategy, agreeing with traditional methods, and revealing the degree of mosaicism. We also sequenced an entire ~50 kbp expansion, which has not been achieved previously for DM2 or any other repeat-expansion disorders. Our approach precisely counted the repeats and identified the repeat pattern for both short interrupted and uninterrupted alleles. Interestingly, in the expanded alleles, only two DM2 samples featured the expected pure CCTG repeat pattern, while the other seven presented also TCTG blocks at the 3′ end, which have not been reported before in DM2 patients, but confirmed hereby with orthogonal methods. The demonstrated approach simultaneously determines repeat length, structure/motif, and the extent of somatic mosaicism, promising to improve the molecular diagnosis of DM2 and achieve more accurate genotype–phenotype correlations for the better stratification of DM2 patients in clinical trials.

Published

2022

24. Vitis vinifera Manseng noir, the sister of Tannat. Alternative variety for low alcohol wines produced in Uruguayan conditions

Author

Laura Fariña, Victoria Gonzalez, Dany Mayo, Eduardo Boido, Pia Carrau, Valentina Martin, Aníbal Paz, Diego Simon, Cecília Da Silva, Fernando Alvarez-Valin, Valentina Grosso, Luca Marcolungo, Massimo Delledonne, Eduardo Dellacassa, and Francisco Carrau

Subjects

Environmental Engineering, Industrial and Manufacturing Engineering

Abstract

Vitis vinifera Tannat was introduced in Uruguay in 1870 from the Basque Pyrenees, and within several grapevines it became the variety best adapted to our viticultural conditions. Recently, through genetic analysis it was demonstrated that Manseng Noir, in addition to originate from the same region of Tannat, is the only natural sister identified within 2500 Vitis varieties surveyed [1]. Given the small commercial vineyard of this variety in France, after several years we have managed to plant in 2019 the first vineyard outside the Pyrenees in Uruguay. In 2021 and 2022 harvests, its elaboration is achieved with the aim of comparing its wine with Tannat. Results obtained show that its agronomic phenotype, as well as aspects of sanity, acidity, and color intensity are similar to Tannat, but with the particularity that grapes are of moderate ripening, 12.5% of alc., total polyphenol index was 12% lower than the control Tannat at 14% of alcohol. Interestingly, Manseng Noir shows an early smoothness in its tannins that allow to achieve lower alcohol wines, still powerful color and structure but less astringency in the mouth. Its complete genome was sequenced by Illumina technology and comparative genome analysis with Tannat was carried on. Genetic, metabolomic and sensory analyzes comparison with Tannat are discussed in this work.

Published

2023

25. A Gain-of-Function Mutation on

Author

Alice, Maguolo, Giulia, Rodella, Alejandro, Giorgetti, Marion, Nicolodi, Rui, Ribeiro, Alice, Dianin, Gaetano, Cantalupo, Irene, Monge, Sarah, Carcereri, Margherita Lucia, De Bernardi, Massimo, Delledonne, Andrea, Pasini, Natascia, Campostrini, Florina, Ion Popa, Giorgio, Piacentini, Francesca, Teofoli, Monica, Vincenzi, Marta, Camilot, and Andrea, Bordugo

Subjects

Maple Syrup Urine Disease, Gain of Function Mutation, Mutation, Infant, Newborn, Humans, Protein Kinases, Amino Acids, Branched-Chain, 3-Methyl-2-Oxobutanoate Dehydrogenase (Lipoamide)

Abstract

BCKDK is an important key regulator of branched-chain ketoacid dehydrogenase complex activity by phosphorylating and so inactivating branched-chain ketoacid dehydrogenases, the rate-limiting enzyme of the branched-chain amino acid metabolism. We identified, by whole exome-sequencing analysis, the p.His162Gln variant of the

Published

2021

26. 'Nebbiolo' genome assembly allows surveying the occurrence and functional implications of genomic structural variations in grapevines (Vitis vinifera L.)

Author

Simone Maestri, Giorgio Gambino, Giulia Lopatriello, Andrea Minio, Irene Perrone, Emanuela Cosentino, Barbara Giovannone, Luca Marcolungo, Massimiliano Alfano, Stephane Rombauts, Dario Cantu, Marzia Rossato, Massimo Delledonne, and Luciano Calderón

Subjects

structural variants, grapevine, genome, optical mapping, long-read sequencing, Bioinformatics, Human Genome, structural variants, Biology and Life Sciences, Biological Sciences, Medical and Health Sciences, grapevine, CULTIVARS, optical mapping, ALIGNMENT, Italy, Information and Computing Sciences, long-read sequencing, Genomic Structural Variation, Genetics, Vitis, genome, Biotechnology

Abstract

Background ‘Nebbiolo’ is a grapevine cultivar typical of north-western Italy, appreciated for producing high-quality red wines. Grapevine cultivars are characterized by possessing highly heterozygous genomes, including a great incidence of genomic rearrangements larger than 50 bp, so called structural variations (SVs). Even though abundant, SVs are an under-explored source of genetic variation mainly due to methodological limitations at their detection. Results We employed a multiple platform approach to produce long-range genomic data for two different ‘Nebbiolo’ clones, namely: optical mapping, long-reads and linked-reads. We performed a haplotype-resolved de novo assembly for cultivar ‘Nebbiolo’ (clone CVT 71) and used an ab-initio strategy to annotate it. The annotated assembly enhanced our ability to detect SVs, enabling the study of genomic regions not present in the grapevines’ reference genome and accounting for their functional implications. We performed variant calling analyses at three different organizational levels: i) between haplotypes of clone CVT 71 (primary assembly vs haplotigs), ii) between ‘Nebbiolo’ and ‘Cabernet Sauvignon’ assemblies and iii) between clones CVT 71 and CVT 185, representing different ‘Nebbiolo’ biotypes. The cumulative size of non-redundant merged SVs indicated a total of 79.6 Mbp for the first comparison and 136.1 Mbp for the second one, while no SVs were detected for the third comparison. Interestingly, SVs differentiating cultivars and haplotypes affected similar numbers of coding genes. Conclusions Our results suggest that SVs accumulation rate and their functional implications in ‘Nebbiolo’ genome are highly-dependent on the organizational level under study. SVs are abundant when comparing ‘Nebbiolo’ to a different cultivar or the two haplotypes of the same individual, while they turned absent between the two analysed clones.

Published

2021

27. Characterization of FMR1 Repeat Expansion and Intragenic Variants by Indirect Sequence Capture

Author

Valentina Grosso, Luca Marcolungo, Simone Maestri, Massimiliano Alfano, Denise Lavezzari, Barbara Iadarola, Alessandro Salviati, Barbara Mariotti, Annalisa Botta, Maria Rosaria D’Apice, Giuseppe Novelli, Massimo Delledonne, and Marzia Rossato

Subjects

Genetic counseling, repeat expansion, single nucleotide variants, long fragment enrichment, Computational biology, indirect sequence capture, FMR1, Biology, QH426-470, medicine.disease, Fragile X syndrome, Settore MED/03, medicine, Genetics, Molecular Medicine, Indel, Trinucleotide repeat expansion, Gene, Genetics (clinical), Illumina dye sequencing, Sequence (medicine)

Abstract

Traditional methods for the analysis of repeat expansions, which underlie genetic disorders, such as fragile X syndrome (FXS), lack single-nucleotide resolution in repeat analysis and the ability to characterize causative variants outside the repeat array. These drawbacks can be overcome by long-read and short-read sequencing, respectively. However, the routine application of next-generation sequencing in the clinic requires target enrichment, and none of the available methods allows parallel analysis of long-DNA fragments using both sequencing technologies. In this study, we investigated the use of indirect sequence capture (Xdrop technology) coupled to Nanopore and Illumina sequencing to characterize FMR1, the gene responsible of FXS. We achieved the efficient enrichment (> 200×) of large target DNA fragments (~60–80 kbp) encompassing the entire FMR1 gene. The analysis of Xdrop-enriched samples by Nanopore long-read sequencing allowed the complete characterization of repeat lengths in samples with normal, pre-mutation, and full mutation status (> 1 kbp), and correctly identified repeat interruptions relevant for disease prognosis and transmission. Single-nucleotide variants (SNVs) and small insertions/deletions (indels) could be detected in the same samples by Illumina short-read sequencing, completing the mutational testing through the identification of pathogenic variants within the FMR1 gene, when no typical CGG repeat expansion is detected. The study successfully demonstrated the parallel analysis of repeat expansions and SNVs/indels in the FMR1 gene at single-nucleotide resolution by combining Xdrop enrichment with two next-generation sequencing approaches. With the appropriate optimization necessary for the clinical settings, the system could facilitate both the study of genotype–phenotype correlation in FXS and enable a more efficient diagnosis and genetic counseling for patients and their relatives.

Published

2021

28. Characterization of

Author

Valentina, Grosso, Luca, Marcolungo, Simone, Maestri, Massimiliano, Alfano, Denise, Lavezzari, Barbara, Iadarola, Alessandro, Salviati, Barbara, Mariotti, Annalisa, Botta, Maria Rosaria, D'Apice, Giuseppe, Novelli, Massimo, Delledonne, and Marzia, Rossato

Subjects

repeat expansion, Genetics, single nucleotide variants, long fragment enrichment, FMR1, indirect sequence capture, Original Research

Abstract

Traditional methods for the analysis of repeat expansions, which underlie genetic disorders, such as fragile X syndrome (FXS), lack single-nucleotide resolution in repeat analysis and the ability to characterize causative variants outside the repeat array. These drawbacks can be overcome by long-read and short-read sequencing, respectively. However, the routine application of next-generation sequencing in the clinic requires target enrichment, and none of the available methods allows parallel analysis of long-DNA fragments using both sequencing technologies. In this study, we investigated the use of indirect sequence capture (Xdrop technology) coupled to Nanopore and Illumina sequencing to characterize FMR1, the gene responsible of FXS. We achieved the efficient enrichment (> 200×) of large target DNA fragments (~60–80 kbp) encompassing the entire FMR1 gene. The analysis of Xdrop-enriched samples by Nanopore long-read sequencing allowed the complete characterization of repeat lengths in samples with normal, pre-mutation, and full mutation status (> 1 kbp), and correctly identified repeat interruptions relevant for disease prognosis and transmission. Single-nucleotide variants (SNVs) and small insertions/deletions (indels) could be detected in the same samples by Illumina short-read sequencing, completing the mutational testing through the identification of pathogenic variants within the FMR1 gene, when no typical CGG repeat expansion is detected. The study successfully demonstrated the parallel analysis of repeat expansions and SNVs/indels in the FMR1 gene at single-nucleotide resolution by combining Xdrop enrichment with two next-generation sequencing approaches. With the appropriate optimization necessary for the clinical settings, the system could facilitate both the study of genotype–phenotype correlation in FXS and enable a more efficient diagnosis and genetic counseling for patients and their relatives.

Published

2021

29. Whole-exome sequencing of the mummified remains of Cangrande della Scala (1291-1329 CE) indicates the first known case of late-onset Pompe disease

Author

David Caramelli, Martina Lari, Cristina Beltrami, Valentina Zaro, Alessandra Modi, Alessandro Salviati, Marzia Rossato, Chiara Degli Esposti, Barbara Iadarola, Ettore Napione, Denise Lavezzari, Massimo Delledonne, and Leonardo Latella

Subjects

Male, History, Science, Disease, Biology, Genome, DNA sequencing, Whole Exome Sequencing, Article, Ancient, Glycogen storage disease type II, Genotype, Exome Sequencing, medicine, Humans, Clinical genetics, Genetic variation, DNA, Ancient, Exome, Exome sequencing, Multidisciplinary, Glycogen Storage Disease Type II, DNA, Mummies, medicine.disease, History, Medieval, Ancient DNA, Archaeology, Evolutionary biology, Medicine, Medieval

Abstract

Mummified remains of relevant historical figures are nowadays an important source of information to retrace data concerning their private life and health, especially when historical archives are not available. Next-generation-sequencing was proved to be a valuable tool to unravel the characteristics of these individuals through their genetic heritage. Using the strictest criteria currently available for the validation of ancient DNA sequences, whole-genome and whole-exome sequencing were generated from the mummy remains of an Italian nobleman died almost 700 years ago, Cangrande della Scala. While its genome sequencing could not yield sufficient coverage for in depth investigation, exome sequencing could overcome the limitations of this approach to achieve significantly high coverage on coding regions, thus allowing to perform the first extensive exome analysis of a mummy genome. Similar to a standard “clinical exome analysis” conducted on modern DNA, an in-depth variant annotation, high-quality filtering and interpretation was performed, leading to the identification of a genotype associated with late-onset Pompe disease (glycogen storage disease type II). This genetic diagnosis was concordant with the limited clinical history available for Cangrande della Scala, who likely represents the earliest known case of this autosomal recessive metabolic disorder.

Published

2021

30. RETRACTED ARTICLE: Additional new species of Grouvellinus Champion 1923 (Insecta, Coleoptera, Elmidae) discovered by citizen scientists and DNA barcoded in the field applying a novel MinION-based workflow

Author

Emanuela Cosentino, Christian Molls, Marzia Rossato, Aglaia M. Bouma, Massimo Delledonne, Jhoana M. Garces, and Hendrik Freitag

Subjects

0106 biological sciences, History, biology, Aglaia, Bouma, 010607 zoology, Champion, Elmidae, Library science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Workflow, Minion, Citizen science, Grouvellinus, Ecology, Evolution, Behavior and Systematics

Abstract

We, the Editor and Publisher of Journal of Natural History, have retracted the following article: Hendrik Freitag, Christian Molls, Aglaia M. Bouma, Jhoana M. Garces, Marzia Rossato, Emanuela Cosen...

Published

2019

31. Functional Transcriptome Analysis in ARSACS KO Cell Model Reveals a Role of Sacsin in Autophagy

Author

Filippo M. Santorelli, Stefano Doccini, Federica Morani, Alessandro Simonati, Francesco Pezzini, Roberto Sirica, Massimo Delledonne, Marta Paterno, and Ivana Ricca

Subjects

0301 basic medicine, Autophagosome, Autosomal recessive spastic ataxia of charlevoix-Saguenay (ARSAcS), Genetics of the nervous system, lcsh:Medicine, Mitochondrion, Oxidative Phosphorylation, Transcriptome, chemistry.chemical_compound, Gene Knockout Techniques, 0302 clinical medicine, knockout cells, lcsh:Science, Cells, Cultured, Heat-Shock Proteins, SACS mutations, sacsin, autophagy, Multidisciplinary, TOR Serine-Threonine Kinases, Neurodegeneration, Bafilomycin, Cell biology, Mitochondria, Muscle Spasticity, Proteasome Endopeptidase Complex, Oxidative phosphorylation, Biology, Article, 03 medical and health sciences, medicine, Autophagy, Humans, Spinocerebellar Ataxias, Genetic Predisposition to Disease, Genetic Association Studies, Ubiquitin, Gene Expression Profiling, lcsh:R, Computational Biology, medicine.disease, 030104 developmental biology, Gene Ontology, chemistry, lcsh:Q, Spinocerebellar ataxia, CRISPR-Cas Systems, 030217 neurology & neurosurgery

Abstract

Autosomal recessive spastic ataxia of Charlevoix-Saguenay (ARSACS) is a rare early-onset neurological disease caused by mutations in SACS, which encodes sacsin. The complex architecture of sacsin suggests that it could be a key player in cellular protein quality control system. Molecular chaperones that operate in protein folding/unfolding and assembly/disassembly patterns have been described as essential modulators of selectivity during the autophagy process. We performed RNA-sequencing analysis to generate a whole-genome molecular signature profile of sacsin knockout cells. Using data analysis of biological processes significantly disrupted due to loss of sacsin, we confirmed the presence of decreased mitochondrial function associated with increased oxidative stress, and also provided a demonstration of a defective autophagic pathway in sacsin-depleted cells. Western blotting assays revealed decreased expression of LC3 and increased levels of p62 even after treatment with the lysosomal inhibitor bafilomycin A1, indicating impairment of the autophagic flux. Moreover, we found reduced co-immunolocalization of the autophagosome marker LC3 with lysosomal and mitochondrial markers suggesting fusion inhibition of autophagic compartments and subsequent failed cargo degradation, in particular failed degradation of damaged mitochondria. Pharmacological up-regulation of autophagy restored correct autophagic flux in sacsin knockout cells. These results corroborate the hypothesis that sacsin may play a role in autophagy. Chemical manipulation of this pathway might represent a new target to alleviate clinical and pathological symptoms, delaying the processes of neurodegeneration in ARSACS.

Published

2019

32. Author response: Whole-genome sequencing analysis of semi-supercentenarians

Author

Sebastiano Collino, Massimo Delledonne, Patrick Descombes, Armand Valsesia, Benedetta Nacmias, Sandro Sorbi, Evelyn Ferri, Frederic Raymond, Davide Pettener, Domenico Girelli, Patrizia D'Aquila, Francesco De Rango, Daniela Mari, Martina Casati, Luciano Xumerle, Giuseppe Passarino, Cristina Giuliani, Maria Giulia Bacalini, Katarzyna Malgorzata Kwiatkowska, Claudio Franceschi, Alberto Ferrarini, Daniela Monti, Donata Luiselli, Chiara Pirazzini, Beatrice Arosio, Jérôme Carayol, Oliviero Olivieri, Gastone Castellani, Luca Bertamini, Vincenzo Iannuzzi, Claudia Sala, Paolo Garagnani, Julien Marquis, Nicola Martinelli, and Elena Marasco

Subjects

Whole genome sequencing, Computational biology, Biology

Published

2021

33. ACoRE: Accurate SARS-CoV-2 genome reconstruction for the characterization of intra-host and inter-host viral diversity in clinical samples and for the evaluation of re-infections

Author

Emanuela Cosentino, Elena Pomari, Marzia Rossato, Cristina Beltrami, Elena Segala, Salvatore Scarso, Chiara Degli Esposti, Valentina Grosso, Michela Deiana, Zeno Bisoffi, Chiara Piubelli, Barbara Iadarola, Antonio Mori, Martina Gallinaro, Barbara Giovannone, Luca Marcolungo, Simone Maestri, Denise Lavezzari, Giulia Lopatriello, Marta Paterno, and Massimo Delledonne

Subjects

0106 biological sciences, Genetic variants, 2019-20 coronavirus outbreak, SARS-CoV-2 genome sequencing, Low-viral titer, Re-infection, Suboptimal samples, Coronavirus disease 2019 (COVID-19), Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Genome, Viral, Computational biology, Biology, 01 natural sciences, Genome, DNA sequencing, 03 medical and health sciences, Genetics, Humans, 030304 developmental biology, Whole genome sequencing, 0303 health sciences, Whole Genome Sequencing, SARS-CoV-2, COVID-19, Genetic Variation, Amplicon, Reinfection, Original Article, Identification (biology), Host (network), 010606 plant biology & botany

Abstract

Sequencing the SARS-CoV-2 genome from clinical samples can be challenging, especially in specimens with low viral titer. Here we report Accurate SARS-CoV-2 genome Reconstruction (ACoRE), an amplicon-based viral genome sequencing workflow for the complete and accurate reconstruction of SARS-CoV-2 sequences from clinical samples, including suboptimal ones that would usually be excluded even if unique and irreplaceable. The protocol was optimized to improve flexibility and the combination of technical replicates was established as the central strategy to achieve accurate analysis of low-titer/suboptimal samples. We demonstrated the utility of the approach by achieving complete genome reconstruction and the identification of false-positive variants in >170 clinical samples, thus avoiding the generation of inaccurate and/or incomplete sequences. Most importantly, ACoRE was crucial to identify the correct viral strain responsible of a relapse case, that would be otherwise mis-classified as a re-infection due to missing or incorrect variant identification by a standard workflow.

Published

2021

34. Hydraena (s.str.) dinarica, new species (Coleoptera: Hydraenidae) along with further records of Hydraena spp. from Durmitor National Park, Montenegro and comments on the DNA barcoding problem with the genus

Author

Cameron G Thompson, Iva Njunjić, Massimo Delledonne, Rebekah Lambert, Clister V. Pangantihon, Marc Ryan Sabordo, Michael F. J. Fox, Hendrik Freitag, Marta Paterno, Simone Maestri, Mariela C Gonzalez, Helena Lamed, Rick de Vries, and Emmanuel D. Delocado

Subjects

0106 biological sciences, Insecta, Biodiversity & Conservation, Gastropoda, Dinarica, MinION sequencing, Helicoidea, 01 natural sciences, DNA barcoding, Genus, citizen science, Biology (General), Faunistics & Distribution, Molecular systematics, Ecology, biology, National park, Helicidae, Southern Europe and Mediterranean, Staphylinoidea, Taxon Expeditions, Hydraena, Coleoptera, Geography, Biogeography, Neogene, Species complex, Arthropoda, QH301-705.5, 010607 zoology, Zoology, Hydraenidae, Freshwater Biota & Ecosystems, 010603 evolutionary biology, Intraspecific competition, Systematics, Animalia, Montenegro, Ecology, Evolution, Behavior and Systematics, minute moss be, Aquatic biology, Taxonomy, Durmitor Mt, Palaearctic region, biology.organism_classification, Taxon, Stylommatophora, Mollusca, Taxonomic Paper, minute moss beetle

Abstract

Background Long-palped Water Beetles were collected during a taxon expedition in Montenegro which involved citizen scientists, students and taxonomists. The material was collected from springs, brooks, fens and the Tara River, at altitudes between 600 m and 1450 m above sea level, using fine-meshed hand-nets and by manual checking of submerged substrates. The morphological species delimitation was supplemented and congruent with mtDNA sequences mainly obtained in the field using the newly-developed MinION-based ONTrack pipeline. New information The new species Hydraena dinarica Freitag & de Vries, sp. n. from Durmitor Mt. is described, illustrated and compared in detail to closely-related congeners of the H. saga d'Orchymont, 1930/ H. emarginata Rey, 1885 species complex. Five additional species and female specimens of two unidentified morphospecies of the genus were also recorded in the vicinity of Durmitor National Park. New records and the first DNA barcodes for Hydraena biltoni Jach & Diaz, 2012 (endemic to Montenegro) and H. morio Kiesenwetter, 1849 are provided. Further records of H. nigrita Germar, 1824, H. minutissima Stephens, 1829, H. subintegra Ganglbauer, 1901 and females of two unidentified morphospecies are commented upon. The resulting inter- and intraspecific genetic distances and some observations of low or zero sequence divergence between recently-diverged species of Hydraena Kugelann, 1794 are briefly discussed.

Published

2021

35. Whole-genome sequencing analysis of semi-supercentenarians

Author

Evelyn Ferri, Luciano Xumerle, Julien Marquis, Oliviero Olivieri, Gastone Castellani, Cristina Giuliani, Patrizia D'Aquila, Sandro Sorbi, Daniela Mari, Claudia Sala, Maria Giulia Bacalini, Paolo Garagnani, Patrick Descombes, Nicola Martinelli, Beatrice Arosio, Sebastiano Collino, Jérôme Carayol, Frederic Raymond, Benedetta Nacmias, Luca Bertamini, Davide Pettener, Domenico Girelli, Giuseppe Passarino, Vincenzo Iannuzzi, Katarzyna Malgorzata Kwiatkowska, Martina Casati, Donata Luiselli, Claudio Franceschi, Daniela Monti, Massimo Delledonne, Francesco De Rango, Elena Marasco, Armand Valsesia, Chiara Pirazzini, Alberto Ferrarini, Garagnani P., Marquis J., Delledonne M., Pirazzini C., Marasco E., Kwiatkowska K.M., Iannuzzi V., Bacalini M.G., Valsesia A., Carayol J., Raymond F., Ferrarini A., Xumerle L., Collino S., Mari D., Arosio B., Casati M., Ferri E., Monti D., Nacmias B., Sorbi S., Luiselli D., Pettener D., Castellani G., Sala C., Passarino G., De Rango F., D'aquila P., Bertamini L., Martinelli N., Girelli D., Olivieri O., Giuliani C., Descombes P., and Franceschi C.

Subjects

0301 basic medicine, Male, DNA Repair, semi-supercentenarians, medicine.disease_cause, Genome, Germline, genomic, Cohort Studies, 0302 clinical medicine, 80 and over, genetics, Biology (General), media_common, Genetics, Aged, 80 and over, Mutation, geroscience, General Neuroscience, Longevity, General Medicine, sequencing, Middle Aged, 3. Good health, Italy, ageing, clonal hematopoiesis, genomics, human, longevity, Cohort, Medicine, Female, Genetic Background, Research Article, QH301-705.5, DNA repair, Science, media_common.quotation_subject, semi-supercentenarian, Genomics, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, medicine, Humans, Aged, Whole genome sequencing, General Immunology and Microbiology, Whole Genome Sequencing, Genetics and Genomics, 030104 developmental biology, Clonal Hematopoiesi, genetic, Cohort Studie, 030217 neurology & neurosurgery

Abstract

Extreme longevity is the paradigm of healthy aging as individuals who reached the extreme decades of human life avoided or largely postponed all major age-related diseases. In this study, we sequenced at high coverage (90X) the whole genome of 81 semi-supercentenarians and supercentenarians [105+/110+] (mean age: 106.6 ± 1.6) and of 36 healthy unrelated geographically matched controls (mean age 68.0 ± 5.9) recruited in Italy. The results showed that 105+/110+ are characterized by a peculiar genetic background associated with efficient DNA repair mechanisms, as evidenced by both germline data (common and rare variants) and somatic mutations patterns (lower mutation load if compared to younger healthy controls). Results were replicated in a second independent cohort of 333 Italian centenarians and 358 geographically matched controls. The genetics of 105+/110+ identified DNA repair and clonal haematopoiesis as crucial players for healthy aging and for the protection from cardiovascular events.

Published

2021

36. The INCREASE project: Intelligent Collections of food-legume genetic resources for European agrofood systems

Author

Giuseppina Logozzo, Shiv Kumar Agrawal, Filippo Servalli, Juan J. Ferreira, Saleh Alseekh, Frédéric Muel, Karolina Susek, Mario Marino, Denise F. Dostatny, Tristan Mary-Huard, Alisdair R. Fernie, Massimo Zaccardelli, Kerstin Neumann, Sofia Ghitarrini, Marta W. Vasconcelos, Kirstin E. Bett, Creola Brezeanu, Vladimir Meglič, Tamara Messer, Roberto Papa, Douglas R. Cook, Aleksei Zavarzin, O. Mario Aguilar, Tania Gioia, Valérie Geffroy, Massimo Delledonne, Markus Opperman, Phil McClean, Elisa Bellucci, Silvia Străjeru, Lena Prochnow, Magdalena Kroc, Laura Nanni, Lucía De la Rosa, Luis Guasch, Maud I. Tenaillon, Andreas Graner, Emanuele Frontoni, Elena Bitocchi, Rajeev K. Varshney, Institut des Sciences des Plantes de Paris-Saclay (IPS2 (UMR_9213 / UMR_1403)), Université d'Évry-Val-d'Essonne (UEVE)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Génétique Quantitative et Evolution - Le Moulon (Génétique Végétale) (GQE-Le Moulon), AgroParisTech-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institut technique des oléagineux, des protéagineux et du chanvre, Terres Inovia, Polytechnical University of Marche, Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Université d'Évry-Val-d'Essonne (UEVE)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), and Veritati - Repositório Institucional da Universidade Católica Portuguesa

Subjects

0106 biological sciences, Germplasm, Artificial intelligence, International Cooperation, [SDV]Life Sciences [q-bio], Plant Biology, Plant Science, 01 natural sciences, Databases, Genetic, Sustainable agriculture, Citizen science, ComputingMilieux_MISCELLANEOUS, 2. Zero hunger, 0303 health sciences, Food security, Agroforestry, Fabaceae, Europe, Plant genetic resources, Seeds, High-throughput phenotyping, Zero Hunger, Crops, Agricultural, Genotype, Plant Biology & Botany, Crops, Biology, 12. Responsible consumption, [SDV.GEN.GPL]Life Sciences [q-bio]/Genetics/Plants genetics, Databases, 03 medical and health sciences, Genetic, Genetics, Metabolomics, Adaptation (computer science), Symbiosis, 030304 developmental biology, Agricultural, business.industry, Cell Biology, 15. Life on land, Climate Action, [SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breeding, Climate change mitigation, Seed Bank, 13. Climate action, Agriculture, Agricultural biodiversity, Biochemistry and Cell Biology, business, 010606 plant biology & botany

Abstract

International audience; Food legumes are crucial for all agriculture-related societal challenges, including climate change mitigation, agrobiodiversity conservation, sustainable agriculture, food security and human health. The transition to plant-based diets, largely based on food legumes, could present major opportunities for adaptation and mitigation, generating significant co-benefits for human health. The characterization, maintenance and exploitation of food-legume genetic resources, to date largely unexploited, form the core development of both sustainable agriculture and a healthy food system. INCREASE will implement, on chickpea (Cicer arietinum), common bean (Phaseolus vulgaris), lentil (Lens culinaris) and lupin (Lupinus albus and L. mutabilis), a new approach to conserve, manage and characterize genetic resources. Intelligent Collections, consisting of nested core collections composed of single-seed descent-purified accessions (i.e., inbred lines), will be developed, exploiting germplasm available both from genebanks and on-farm and subjected to different levels of genotypic and phenotypic characterization. Phenotyping and gene discovery activities will meet, via a participatory approach, the needs of various actors, including breeders, scientists, farmers and agri-food and non-food industries, exploiting also the power of massive metabolomics and transcriptomics and of artificial intelligence and smart tools. Moreover, INCREASE will test, with a citizen science experiment, an innovative system of conservation and use of genetic resources based on a decentralized approach for data management and dynamic conservation. By promoting the use of food legumes, improving their quality, adaptation and yield and boosting the competitiveness of the agriculture and food sector, the INCREASE strategy will have a major impact on economy and society and represents a case study of integrative and participatory approaches towards conservation and exploitation of crop genetic resources.

Published

2021

37. Wide transcriptional investigation unravel novel insights of the on-tree maturation and postharvest ripening of 'Abate Fetel' pear fruit

Author

Fabrizio Costa, Brian Farneti, Nicola Busatto, Christos Noutsos, Massimo Delledonne, Antonio Cellini, Alessandro Cestaro, Franco Biasioli, Vicky Oberkofler, Alice Tadiello, and Nicola Busatto, Brian Farneti, Alice Tadiello, Vicky Oberkofler, Antonio Cellini, Franco Biasioli, Massimo Delledonne, Alessandro Cestaro, Christos Noutsos, Fabrizio Costa

Subjects

0106 biological sciences, 0301 basic medicine, Ethylene, Cold storage, Plant Science, Horticulture, 01 natural sciences, Biochemistry, Article, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Auxin, lcsh:Botany, rna-seq, pear, Genetics, lcsh:QH301-705.5, chemistry.chemical_classification, PEAR, biology, food and beverages, Ripening, pear, biology.organism_classification, lcsh:QK1-989, Gene expression, Plant sciences, body regions, 030104 developmental biology, n.a, chemistry, lcsh:Biology (General), rna-seq, Postharvest, Settore AGR/03 - ARBORICOLTURA GENERALE E COLTIVAZIONI ARBOREE, 010606 plant biology & botany, Biotechnology, Pyrus communis

Abstract

To decipher the transcriptomic regulation of the on-tree fruit maturation in pear cv. ‘Abate Fetel’, a RNA-seq transcription analysis identified 8939 genes differentially expressed across four harvesting stages. These genes were grouped into 11 SOTA clusters based on their transcriptional pattern, of which three included genes upregulated while the other four were represented by downregulated genes. Fruit ripening was furthermore investigated after 1 month of postharvest cold storage. The most important variation in fruit firmness, production of ethylene and volatile organic compounds were observed after 5 days of shelf-life at room temperature following cold storage. The role of ethylene in controlling the ripening of ‘Abate Fetel’ pears was furthermore investigated through the application of 1-methylcyclopropene, which efficiently delayed the progression of ripening by reducing fruit softening and repressing both ethylene and volatile production. The physiological response of the interference at the ethylene receptor level was moreover unraveled investigating the expression pattern of 12 candidate genes, initially selected to validate the RNA-seq profile. This analysis confirmed the effective role of the ethylene competitor in downregulating the expression of cell wall (PG) and ethylene-related genes (ACS, ACO, ERS1, and ERS2), as well as inducing one element involved in the auxin signaling pathway (Aux/IAA), highlighting a possible cross-talk between these two hormones. The expression patterns of these six elements suggest their use as molecular toolkit to monitor at molecular level the progression of the fruit on-tree maturation and postharvest ripening., Pears: Genes linked to fruit maturation and ripening Numerous genes, including many involved in the production and signaling of key growth hormones, regulate the on-tree maturation and postharvest ripening of pear fruit. Fabrizio Costa from the Edmund Mach Foundation in San Michele All’adige, Italy, and colleagues identified nearly 9,000 genes that were differentially expressed across four maturation stages of the Abate Fetel cultivar of European pear (Pyrus communis). From this long list of genes, the researchers selected 12 involved in hormone signaling, cell wall metabolism or aromatic volatile compound production, and evaluated their expression pattern with and without application of a chemical added to delay ripening during postharvest storage. Six of the genes, five of which controlled the activity of the hormones auxin and ethylene, showed differential expression, and could be informative as molecular biomarkers for improving fruit quality in pears.

Published

2019

38. Genomic structural variation in ‘Nebbiolo’ grapevines at the individual, clonal and cultivar levels

Author

Emanuela Cosentino, Luciano Calderón, Luca Marcolungo, Irene Perrone, Giulia Lopatriello, Marzia Rossato, Giorgio Gambino, Barbara Giovannone, Andrea Minio, Simone Maestri, Dario Cantu, and Massimo Delledonne

Subjects

Genetics, Genomic data, Haplotype, Genomic Structural Variation, structural variants, food and beverages, grapevine, genome, structural variants, Biology, grapevine, Loss of heterozygosity, Genetic variation, Cultivar, Vitis vinifera, genome, Reference genome

Abstract

Structural Variants (SVs) are a widely unexplored source of genetic variation, both due to methodological limitations and because they are generally associated to deleterious effects. However, with the advent of long-range genomic platforms, it has become easier to directly detect SVs. In the same direction, clonally propagated crops provide a unique opportunity to study SVs, offering a suitable genomic environment for their accumulation in heterozygosis. In particular, it has been reported that SVs generate drastic levels of heterozygosity in grapevines. ‘Nebbiolo’ (Vitis vinifera L.) is a grapevine cultivar typical of north-western Italy, appreciated for its use in producing high-quality red wines. Here, we aimed to analyze the frequency of SVs in ‘Nebbiolo’, at three different organizational levels. For this purpose, we generated genomic data based on long-reads, linked-reads and optical mapping. We assembled a reference genome for this cultivar and compared two different clones, including V. vinifera reference genome (PN40024) in our comparisons. Our results indicate that SVs differentially occurring between ‘Nebbiolo’ clones might be rare, while SVs differentiating haplotypes of the same individual are as abundant as those that occur differentially between cultivars.

Published

2020

39. A geroscience approach for Parkinson's disease: Conceptual framework and design of PROPAG-AGEING project

Author

Chiara Pirazzini, Tiago Azevedo, Luca Baldelli, Anna Bartoletti-Stella, Giovanna Calandra-Buonaura, Alessandra Dal Molin, Giovanna Maria Dimitri, Ivan Doykov, Pilar Gómez-Garre, Sara Hägg, Jenny Hällqvist, Claire Halsband, Wendy Heywood, Silvia Jesús, Juulia Jylhävä, Katarzyna Malgorzata Kwiatkowska, Miguel A. Labrador-Espinosa, Cristina Licari, Maria Giovanna Maturo, Giacomo Mengozzi, Gaia Meoni, Maddalena Milazzo, Maria Teresa Periñán-Tocino, Francesco Ravaioli, Claudia Sala, Luisa Sambati, Sebastian Schade, Sebastian Schreglmann, Simeon Spasov, Leonardo Tenori, Dylan Williams, Luciano Xumerle, Elisa Zago, Kailash P. Bhatia, Sabina Capellari, Pietro Cortelli, Paolo Garagnani, Henry Houlden, Pietro Liò, Claudio Luchinat, Massimo Delledonne, Kevin Mills, Pablo Mir, Brit Mollenhauer, Christine Nardini, Nancy L. Pedersen, Federica Provini, Stephen Strom, Claudia Trenkwalder, Paola Turano, Maria Giulia Bacalini, Claudio Franceschi, Astrid Adarmes-Gómez, Marta Bonilla-Toribio, Claudia Boninsegna, Marcella Broli, Dolores Buiza-Rueda, Mario Carrión-Claro, Rosalia Cilea, Robert Clayton, Silvia De Luca, Patrizia De Massis, Rocio Escuela-Martin, Giovanni Fabbri, Anna Gabellini, Cristina Giuliani, Pietro Guaraldi, Ismae Huertas, Daniel Macias, Stefania Macrì, Francesca Magrinelli, Juan Francisco Martín Rodríguez, Francesco Mignani, Stefania Alessandra Nassetti, Cesa Lorella Maria Scaglione, Cristina Tejera-Parrado, Franco Valzania, Rosario Vigo Ortega, Pirazzini C., Azevedo T., Baldelli L., Bartoletti-Stella A., Calandra Buonaura G., Dal Molin A., Dimitri G.M., Doykov I., Gomez-Garre P., Hagg S., Hallqvist J., Halsband C., Heywood W., Jesus S., Jylhava J., Kwiatkowska K.M., Labrador-Espinosa M.A., Licari C., Maturo M.G., Mengozzi G., Meoni G., Milazzo M., Perinan-Tocino M.T., Ravaioli F., Sala C., Sambati L., Schade S., Schreglmann S., Spasov S., Tenori L., Williams D., Xumerle L., Zago E., Bhatia K.P., Capellari S., Cortelli P., Garagnani P., Houlden H., Lio P., Luchinat C., Delledonne M., Mills K., Mir P., Mollenhauer B., Nardini C., Pedersen N.L., Provini F., Strom S., Trenkwalder C., Turano P., Bacalini M.G., Franceschi C., Adarmes-Gomez A., Bonilla-Toribio M., Boninsegna C., Broli M., Buiza-Rueda D., Carrion-Claro M., Cilea R., Clayton R., Molin A.D., De Luca S., De Massis P., Escuela-Martin R., Fabbri G., Gabellini A., Giuliani C., Guaraldi P., Huertas I., Macias D., Macri S., Magrinelli F., Rodriguez J.F.M., Mignani F., Nassetti S.A., Scaglione C.L.M., Tejera-Parrado C., Valzania F., and Ortega R.V.

Subjects

0301 basic medicine, Gerontology, Male, Aging, Parkinson's disease, Biomedical Research, Inflammaging, Neurodegeneration, Omics, Disease, Motor Activity, 03 medical and health sciences, 0302 clinical medicine, Omic, medicine, Humans, Metabolomics, Risk factor, Aged, Aged, 80 and over, Neurons, Geroscience, business.industry, Age Factors, Brain, Parkinson Disease, Genomics, medicine.disease, 3. Good health, Europe, 030104 developmental biology, Conceptual framework, Ageing, Geriatrics, Research Design, Case-Control Studies, Nerve Degeneration, Twin Studies as Topic, Female, Healthy ageing, Inflammation Mediators, business, 030217 neurology & neurosurgery, Motor disability, Developmental Biology, Signal Transduction

Abstract

Advanced age is the major risk factor for idiopathic Parkinson's disease (PD), but to date the biological relationship between PD and ageing remains elusive. Here we describe the rationale and the design of the H2020 funded project "PROPAG-AGEING", whose aim is to characterize the contribution of the ageing process to PD development. We summarize current evidences that support the existence of a continuum between ageing and PD and justify the use of a Geroscience approach to study PD. We focus in particular on the role of inflammaging, the chronic, low-grade inflammation characteristic of elderly physiology, which can propagate and transmit both locally and systemically. We then describe PROPAG-AGEING design, which is based on the multi-omic characterization of peripheral samples from clinically characterized drug-naive and advanced PD, PD discordant twins, healthy controls and "super-controls", i.e. centenarians, who never showed clinical signs of motor disability, and their offspring. Omic results are then validated in a large number of samples, including in vitro models of dopaminergic neurons and healthy siblings of PD patients, who are at higher risk of developing PD, with the final aim of identifying the molecular perturbations that can deviate the trajectories of healthy ageing towards PD development.

Published

2020

40. Transcriptomic and biochemical investigations support the role of rootstock-scion interaction in grapevine berry quality

Author

Paolo Storchi, Primetta Faccioli, Sergio Puccioni, Luigi Cattivelli, A. Tafuri, Cristina Crosatti, E. Mica, Paolo Bagnaresi, Noam Reshef, Massimo Delledonne, Aaron Fait, Laura Bassolino, and A. Zombardo

Subjects

lcsh:QH426-470, Grapevine, Vitis vinifera, Rootstock, RNA-seq, miRNA, Transcriptomic, Berry ripening, Secondary metabolism, lcsh:Biotechnology, Secondary Metabolism, Berry, Biology, Secondary metabolite, Plant Roots, Veraison, Transcriptome, Phenols, lcsh:TP248.13-248.65, Genetics, medicine, Vitis, RNA-Seq, Secondary metabolism, Weather, miRNA, Genome, food and beverages, Ripening, Plant, Berry ripening, lcsh:Genetics, Horticulture, MicroRNAs, Gene Ontology, Transcriptomic, Vitis vinifera, Fruit, Grapevine, Rootstock, Viticulture, Genome, Plant, Biotechnology, medicine.drug, Research Article

Abstract

Background In viticulture, rootstock genotype plays a critical role to improve scion physiology, berry quality and to adapt grapevine (Vitis vinifera L.) to different environmental conditions. This study aimed at investigating the effect of two different rootstocks (1103 Paulsen - P - and Mgt 101–14 - M) in comparison with not grafted plants - NGC - on transcriptome (RNA-seq and small RNA-seq) and chemical composition of berry skin in Pinot noir, and exploring the influence of rootstock-scion interaction on grape quality. Berry samples, collected at veraison and maturity, were investigated at transcriptional and biochemical levels to depict the impact of rootstock on berry maturation. Results RNA- and miRNA-seq analyses highlighted that, at veraison, the transcriptomes of the berry skin are extremely similar, while variations associated with the different rootstocks become evident at maturity, suggesting a greater diversification at transcriptional level towards the end of the ripening process. In the experimental design, resembling standard agronomic growth conditions, the vines grafted on the two different rootstocks do not show a high degree of diversity. In general, the few genes differentially expressed at veraison were linked to photosynthesis, putatively because of a ripening delay in not grafted vines, while at maturity the differentially expressed genes were mainly involved in the synthesis and transport of phenylpropanoids (e.g. flavonoids), cell wall loosening, and stress response. These results were supported by some differences in berry phenolic composition detected between grafted and not grafted plants, in particular in resveratrol derivatives accumulation. Conclusions Transcriptomic and biochemical data demonstrate a stronger impact of 1103 Paulsen rootstock than Mgt 101–14 or not grafted plants on ripening processes related to the secondary metabolite accumulations in berry skin tissue. Interestingly, the MYB14 gene, involved in the feedback regulation of resveratrol biosynthesis was up-regulated in 1103 Paulsen thus supporting a putative greater accumulation of stilbenes in mature berries.

Published

2020

41. Shedding light on dark genes: enhanced targeted resequencing by optimizing the combination of enrichment technology and DNA fragment length

Author

Luciano Xumerle, Davide Mei, Denise Lavezzari, Luca Marcolungo, Renzo Guerrini, Annalisa Vetro, Marta Paterno, Elena Parrini, Massimo Delledonne, Barbara Iadarola, Marzia Rossato, Cristina Beltrami, and Elisabetta Fortunati

Subjects

0301 basic medicine, Genotype, Sequence analysis, lcsh:Medicine, Genomics, Computational biology, Biology, Genome, Article, DNA sequencing, 03 medical and health sciences, 0302 clinical medicine, Genetics, Humans, Exome, lcsh:Science, Gene, Multidisciplinary, Genome, Human, lcsh:R, High-Throughput Nucleotide Sequencing, DNA, Sequence Analysis, DNA, Targeted resequencing, 030104 developmental biology, 030220 oncology & carcinogenesis, Next-generation sequencing, lcsh:Q, Base calling, Human genome, Sequence Analysis, Algorithms, Human

Abstract

The exome contains many obscure regions difficult to explore with current short-read sequencing methods. Repetitious genomic regions prevent the unique alignment of reads, which is essential for the identification of clinically-relevant genetic variants. Long-read technologies attempt to resolve multiple-mapping regions, but they still produce many sequencing errors. Thus, a new approach is required to enlighten the obscure regions of the genome and rescue variants that would be otherwise neglected. This work aims to improve the alignment of multiple-mapping reads through the extension of the standard DNA fragment size. As Illumina can sequence fragments up to 550 bp, we tested different DNA fragment lengths using four major commercial WES platforms and found that longer DNA fragments achieved a higher genotypability. This metric, which indicates base calling calculated by combining depth of coverage with the confidence of read alignment, increased from hundreds to thousands of genes, including several associated with clinical phenotypes. While depth of coverage has been considered crucial for the assessment of WES performance, we demonstrated that genotypability has a greater impact in revealing obscure regions, with ~1% increase in variant calling in respect to shorter DNA fragments. Results confirmed that this approach enlightened many regions previously not explored.

Published

2020

42. Improved lipid productivity in Nannochloropsis gaditana in nitrogen-replete conditions by selection of pale green mutants

Author

Massimo Delledonne, Stefania Paltrinieri, Barbara Iadarola, Michela Cecchin, Matteo Ballottari, Silvia Berteotti, Barbara Giovannone, Ivano Vigliante, and Massimo E. Maffei

Subjects

0106 biological sciences, lcsh:Biotechnology, Mutant, Photobioreactor, Management, Monitoring, Policy and Law, Photosynthesis, 01 natural sciences, 7. Clean energy, Applied Microbiology and Biotechnology, lcsh:Fuel, 03 medical and health sciences, Biofuel, lcsh:TP315-360, Palmitic acid, lcsh:TP248.13-248.65, Lipid biosynthesis, Microalgae, Nannochloropsis, 030304 developmental biology, 0303 health sciences, biology, Renewable Energy, Sustainability and the Environment, Chemistry, biology.organism_classification, Complementation, Chloroplast, General Energy, Biochemistry, Thylakoid, Microalgae, Photosynthesis, Nannochloropsis, Biofuel, Palmitic acid, Stearic acid, Stearic acid, 010606 plant biology & botany, Biotechnology

Abstract

Background Nannochloropsis gaditana is a photosynthetic unicellular microalgae considered one of the most interesting marine algae to produce biofuels and food additive due to its rapid growth rate and high lipid accumulation. Although microalgae are attractive platforms for solar energy bioconversion, the overall efficiency of photosynthesis is reduced due to the steep light gradient in photobioreactors. Moreover, accumulation of lipids in microalgae for biofuels production is usually induced in a two-phase cultivation process by nutrient starvation, with additional time and costs associated. In this work, a biotechnological approach was directed for the isolation of strains with improved light penetration in photobioreactor combined with increased lipids productivity. Results Mutants of Nannochloropsis gaditana were obtained by chemical mutagenesis and screened for having both a reduced chlorophyll content per cell and increased affinity for Nile red, a fluorescent dye which binds to cellular lipid fraction. Accordingly, one mutant, called e8, was selected and characterized for having a 30% reduction of chlorophyll content per cell and an almost 80% increase of lipid productivity compared to WT in nutrient-replete conditions, with C16:0 and C18:0 fatty acids being more than doubled in the mutant. Whole-genome sequencing revealed mutations in 234 genes in e8 mutant among which there is a non-conservative mutation in the dgd1 synthase gene. This gene encodes for an enzyme involved in the biosynthesis of DGDG, one of the major lipids found in the thylakoid membrane and it is thus involved in chloroplast biogenesis. Lipid biosynthesis is strongly influenced by light availability in several microalgae species, including Nannochloropsis gaditana: reduced chlorophyll content per cell and more homogenous irradiance in photobioreactor is at the base for the increased lipid productivity observed in the e8 mutant. Conclusions The results herein obtained presents a promising strategy to produce algal biomass enriched in lipid fraction to be used for biofuel and biodiesel production in a single cultivation process, without the additional complexity of the nutrient starvation phase. Genome sequencing and identification of the mutations introduced in e8 mutant suggest possible genes responsible for the observed phenotypes, identifying putative target for future complementation and biotechnological application.

Published

2020

43. Pod indehiscence in common bean is associated to the fine regulation of PvMYB26 and a non-functional abscission layer

Author

Maria L. Murgia, Valerio Di Vittori, Saleh Alseekh, Massimo Delledonne, Anja Fröhlich, Ana Campa, Laura Nanni, Fabio Fiorani, Juan J. Ferreira, Alisdair R. Fernie, Concetta De Quattro, Björn Usadel, Roberto Papa, Giuseppina Logozzo, Elisa Bellucci, Domenico Rau, Giovanna Attene, Marzia Rossato, Tania Gioia, Monica Rodriguez, Chunming Xu, Elena Bitocchi, Arun Sampathkumar, and Stefania Marzario

Subjects

0106 biological sciences, 0303 health sciences, education.field_of_study, Seed dispersal, Population, Introgression, Locus (genetics), Biology, Dehiscence, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, Abscission, Point of delivery, Botany, Phaseolus, education, 030304 developmental biology, 010606 plant biology & botany

Abstract

In legumes, pod shattering occurs when mature pods dehisce along the sutures, and detachment of the valves promotes seed dispersal. InPhaseolus vulgaris, the major locusqPD5.1-Pvfor pod indehiscence was identified recently. We developed a BC4/F4 introgression line population and narrowed the major locus down to a 22.5-kb region. Here, gene expression and a parallel histological analysis of dehiscent and indehiscent pods identified anAtMYB26orthologue as the best candidate for loss of pod shattering, on a genomic region ~11 kb downstream of the highest associated peak. Based on mapping and expression data, we propose early and fine up-regulation ofPvMYB26in dehiscent pods. Detailed histological analysis establishes that pod indehiscence is associated to the lack of a functional abscission layer in the ventral sheath, and that the key anatomical modifications associated with pod shattering in common bean occur early during pod development. We finally propose that loss of pod shattering in legumes resulted from histological convergent evolution and that this is the result of selection at orthologous loci.One-sentence summaryA non-functional abscission layer determines the loss of pod shattering; mapping data, and parallel gene expression and histological analysis supportPvMYB26as the candidate gene for pod indehiscence.

Published

2020

44. Whole-Transcriptome Analysis Unveils the Synchronized Activities of Genes for Fructans in Developing Tubers of the Jerusalem Artichoke

Author

Francesco Paolocci, Alberto Ferrarini, Elisa Zago, Marco Bizzarri, D. Vittori, Paola Tononi, Massimo Delledonne, and F. Damiani

Subjects

0106 biological sciences, 0301 basic medicine, Sucrose, Starch, Inulin, Plant Science, tuber phenology, lcsh:Plant culture, 01 natural sciences, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Fructan, Botany, lcsh:SB1-1110, Helianthus, expressed sequence tags, Original Research, 2. Zero hunger, Expressed sequence tag, biology, inulin, fungi, Helianthus tuberosus, food and beverages, qRT-PCR, 15. Life on land, fructosyltransferases, biology.organism_classification, 030104 developmental biology, chemistry, microarray, 010606 plant biology & botany, Jerusalem artichoke

Abstract

Helianthus tuberosus L., known as the Jerusalem artichoke, is a hexaploid plant species, adapted to low-nutrient soils, that accumulates high levels of inulin in its tubers. Inulin is a fructose-based polysaccharide used either as dietary fiber or for the production of bioethanol. Key enzymes involved in inulin biosynthesis are well known. However, the gene networks underpinning tuber development and inulin accumulation in H. tuberous remain elusive. To fill this gap, we selected 6,365 expressed sequence tags (ESTs) from an H. tuberosus library to set up a microarray platform and record their expression across three tuber developmental stages, when rhizomes start enlarging (T0), at maximum tuber elongation rate (T3), and at tuber physiological maturity (Tm), in "VR" and "K8-HS142"clones. The former was selected as an early tuberizing and the latter as a late-tuberizing clone. We quantified inulin and starch levels, and qRT-PCR confirmed the expression of critical genes accounting for inulin biosynthesis. The microarray analysis revealed that the differences in morphological and physiological traits between tubers of the two clones are genetically determined since T0 and that is relatively low the number of differentially expressed ESTs across the stages shared between the clones (93). The expression of ESTs for sucrose:sucrose 1-fructosyltransferase (1-SST) and fructan:fructan 1-fructosyltransferase (1-FFT), the two critical genes for fructans polymerization, resulted to be temporarily synchronized and mirror the progress of inulin accumulation and stretching. The expression of ESTs for starch biosynthesis was insignificant throughout the developmental stages of the clones in line with the negligible level of starch into their mature tubers, where inulin was the dominant polysaccharide. Overall, our study disclosed candidate genes underpinning the development and storage of carbohydrates in the tubers of two H. tuberosus clones. A model according to which the steady-state levels of 1-SST and 1-FFT transcripts are developmentally controlled and might represent a limiting factor for inulin accumulation has been provided. Our finding may have significant repercussions for breeding clones with improved levels of inulin for food and chemical industry.

Published

2020

45. Investigation of the transcriptomic and metabolic changes associated with superficial scald physiology impaired by lovastatin and 1-methylcyclopropene in pear fruit (cv. 'Blanquilla')

Author

Urska Vrhovsek, Fabrizio Costa, Marzia Rossato, Massimo Delledonne, Jordi Giné-Bordonaba, Brian Farneti, Violeta Lindo-García, Franco Biasioli, Nicola Busatto, Gemma Echeverría, Christian Larrigaudière, Concetta De Quattro, Producció Vegetal, and Postcollita

Subjects

0106 biological sciences, 0301 basic medicine, 663/664, Physiology, Cold storage, Plant Science, Horticulture, Biology, 1-Methylcyclopropene, Abiotic, Plant hormones, 01 natural sciences, Biochemistry, Article, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, Metabolomics, Plant hormones, Genetics, medicine, PEAR, Abiotic, Settore AGR/07 - GENETICA AGRARIA, 030104 developmental biology, chemistry, Sorbitol, Lovastatin, 010606 plant biology & botany, Biotechnology, medicine.drug, Hormone

Abstract

To elucidate the physiology underlying the development of superficial scald in pears, susceptible “Blanquilla” fruit was treated with different compounds that either promoted (ethylene) or repressed (1-methylcyclopropene and lovastatin) the incidence of this disorder after 4 months of cold storage. Our data show that scald was negligible for the fruit treated with 1-methylcyclopropene or lovastatin, but highly manifested in untreated (78% incidence) or ethylene-treated fruit (97% incidence). The comparison between the fruit metabolomic profile and transcriptome evidenced a distinct reprogramming associated with each treatment. In all treated samples, cold storage led to an activation of a cold-acclimation-resistance mechanism, including the biosynthesis of very-long-chain fatty acids, which was especially evident in 1-methylcyclopropane-treated fruit. Among the treatments applied, only 1-methylcyclopropene inhibited ethylene production, hence supporting the involvement of this hormone in the development of scald. However, a common repression effect on the PPO gene combined with higher sorbitol content was found for both lovastatin and 1-methylcyclopropene-treated samples, suggesting also a non-ethylene-mediated process preventing the development of this disorder. The results presented in this work represent a step forward to better understand the physiological mechanisms governing the etiology of superficial scald in pears.

Published

2020

46. A Long-Read Sequencing Approach for Direct Haplotype Phasing in Clinical Settings

Author

Luca Marcolungo, Marzia Rossato, Maria Giovanna Maturo, Simone Maestri, Elisabetta Fortunati, Barbara Iadarola, Massimo Delledonne, and Emanuela Cosentino

Subjects

Computer science, Clinical Decision-Making, Clinical settings, Locus (genetics), Computational biology, Polymorphism, Single Nucleotide, diagnostic testing, Article, Catalysis, lcsh:Chemistry, Inorganic Chemistry, Apolipoproteins E, Humans, Genetic Testing, Physical and Theoretical Chemistry, Indel, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, variant calling, fungi, Organic Chemistry, Haplotype, Gene Amplification, food and beverages, Chromosome Mapping, Computational Biology, Disease Management, Genetic Variation, High-Throughput Nucleotide Sequencing, Genomics, Sequence Analysis, DNA, General Medicine, Amplicon, Phaser, Computer Science Applications, Molecular Typing, haplotype phasing, Workflow, Haplotypes, lcsh:Biology (General), lcsh:QD1-999, Genetic Loci, nanopore sequencing, Nanopore sequencing, Software

Abstract

The reconstruction of individual haplotypes can facilitate the interpretation of disease risks, however, high costs and technical challenges still hinder their assessment in clinical settings. Second-generation sequencing is the gold standard for variant discovery but, due to the production of short reads covering small genomic regions, allows only indirect haplotyping based on statistical methods. In contrast, third-generation methods such as the nanopore sequencing platform developed by Oxford Nanopore Technologies (ONT) generate long reads that can be used for direct haplotyping, with fewer drawbacks. However, robust standards for variant phasing in ONT-based target resequencing efforts are not yet available. In this study, we presented a streamlined proof-of-concept workflow for variant calling and phasing based on ONT data in a clinically relevant 12-kb region of the APOE locus, a hotspot for variants and haplotypes associated with aging-related diseases and longevity. Starting with sequencing data from simple amplicons of the target locus, we demonstrated that ONT data allow for reliable single-nucleotide variant (SNV) calling and phasing from as little as 60 reads, although the recognition of indels is less efficient. Even so, we identified the best combination of ONT read sets (600) and software (BWA/Minimap2 and HapCUT2) that enables full haplotype reconstruction when both SNVs and indels have been identified previously using a highly-accurate sequencing platform. In conclusion, we established a rapid and inexpensive workflow for variant phasing based on ONT long reads. This allowed for the analysis of multiple samples in parallel and can easily be implemented in routine clinical practice, including diagnostic testing.

Published

2020

47. The genetic basis of sex determination in grapes

Author

Amanda M. Vondras, Brandon S. Gaut, Mélanie Massonnet, Aline Muyle, Rosa Figueroa-Balderas, Summaira Riaz, Yongfeng Zhou, Jerry Lin, Noé Cochetel, Jadran F. Garcia, Dario Cantu, Andrea Minio, and Massimo Delledonne

Subjects

Agricultural genetics, 0106 biological sciences, 0301 basic medicine, Plant genetics, Science, Dioecy, General Physics and Astronomy, Flowers, Biology, medicine.disease_cause, 01 natural sciences, Genome, Polymorphism, Single Nucleotide, Article, General Biochemistry, Genetics and Molecular Biology, Domestication, Plant reproduction, 03 medical and health sciences, Hermaphrodite, Species Specificity, Genetics, medicine, Vitis, Polymorphism, lcsh:Science, Gene, Phylogeny, Whole genome sequencing, Mutation, Multidisciplinary, Sexual differentiation, Human Genome, fungi, Haplotype, food and beverages, Chromosome Mapping, General Chemistry, Single Nucleotide, Plant Breeding, 030104 developmental biology, Sexual selection, Haplotypes, lcsh:Q, Biotechnology, 010606 plant biology & botany

Abstract

It remains a major challenge to identify the genes and mutations that lead to plant sexual differentiation. Here, we study the structure and evolution of the sex-determining region (SDR) in Vitis species. We report an improved, chromosome-scale Cabernet Sauvignon genome sequence and the phased assembly of nine wild and cultivated grape genomes. By resolving twenty Vitis SDR haplotypes, we compare male, female, and hermaphrodite haplotype structures and identify sex-linked regions. Coupled with gene expression data, we identify a candidate male-sterility mutation in the VviINP1 gene and potential female-sterility function associated with the transcription factor VviYABBY3. Our data suggest that dioecy has been lost during domestication through a rare recombination event between male and female haplotypes. This work significantly advances the understanding of the genetic basis of sex determination in Vitis and provides the information necessary to rapidly identify sex types in grape breeding programs., Grapevine is one of a few ancestrally dioecious crops that are reverted to hermaphroditism during domestication. Here, the authors identify candidate genes related to male- and female-sterility in grapes and describe the genetic process that led to hermaphroditism during domestication.

Published

2020

48. A Gain-of-Function Mutation on BCKDK Gene and Its Possible Pathogenic Role in Branched-Chain Amino Acid Metabolism

Author

Alice Maguolo, Giulia Rodella, Alejandro Giorgetti, Marion Nicolodi, Rui Ribeiro, Alice Dianin, Gaetano Cantalupo, Irene Monge, Sarah Carcereri, Margherita Lucia De Bernardi, Massimo Delledonne, Andrea Pasini, Natascia Campostrini, Florina Ion Popa, Giorgio Piacentini, Francesca Teofoli, Monica Vincenzi, Marta Camilot, and Andrea Bordugo

Subjects

newborn screening, branched-chain amino acid metabolism, Genetics, nutritional and metabolic diseases, genetic analysis, molecular dynamics simulations, whole-exome sequencing, leucinosis, maple syrup urine disease, branched-chain ketoacid dehydrogenase kinase, Genetics (clinical)

Abstract

BCKDK is an important key regulator of branched-chain ketoacid dehydrogenase complex activity by phosphorylating and so inactivating branched-chain ketoacid dehydrogenases, the rate-limiting enzyme of the branched-chain amino acid metabolism. We identified, by whole exome-sequencing analysis, the p.His162Gln variant of the BCKDK gene in a neonate, picked up by newborn screening, with a biochemical phenotype of a mild form of maple syrup urine disease (MSUD). The same biochemical and genetic picture was present in the father. Computational analysis of the mutation was performed to better understand its role. Extensive atomistic molecular dynamics simulations showed that the described mutation leads to a conformational change of the BCKDK protein, which reduces the effect of inhibitory binding bound to the protein itself, resulting in its increased activity with subsequent inactivation of BCKDC and increased plasmatic branched-chain amino acid levels. Our study describes the first evidence of the involvement of the BCKDK gene in a mild form of MSUD. Although further data are needed to elucidate the clinical relevance of the phenotype caused by this variant, awareness of this regulatory activation of BCKDK is very important, especially in newborn screening data interpretation.

Published

2022

49. Improved lipid productivity in

Author

Michela, Cecchin, Silvia, Berteotti, Stefania, Paltrinieri, Ivano, Vigliante, Barbara, Iadarola, Barbara, Giovannone, Massimo E, Maffei, Massimo, Delledonne, and Matteo, Ballottari

Subjects

Biofuel, Palmitic acid, Research, Microalgae, Nannochloropsis, Photosynthesis, Stearic acid

Abstract

Background Nannochloropsis gaditana is a photosynthetic unicellular microalgae considered one of the most interesting marine algae to produce biofuels and food additive due to its rapid growth rate and high lipid accumulation. Although microalgae are attractive platforms for solar energy bioconversion, the overall efficiency of photosynthesis is reduced due to the steep light gradient in photobioreactors. Moreover, accumulation of lipids in microalgae for biofuels production is usually induced in a two-phase cultivation process by nutrient starvation, with additional time and costs associated. In this work, a biotechnological approach was directed for the isolation of strains with improved light penetration in photobioreactor combined with increased lipids productivity. Results Mutants of Nannochloropsis gaditana were obtained by chemical mutagenesis and screened for having both a reduced chlorophyll content per cell and increased affinity for Nile red, a fluorescent dye which binds to cellular lipid fraction. Accordingly, one mutant, called e8, was selected and characterized for having a 30% reduction of chlorophyll content per cell and an almost 80% increase of lipid productivity compared to WT in nutrient-replete conditions, with C16:0 and C18:0 fatty acids being more than doubled in the mutant. Whole-genome sequencing revealed mutations in 234 genes in e8 mutant among which there is a non-conservative mutation in the dgd1 synthase gene. This gene encodes for an enzyme involved in the biosynthesis of DGDG, one of the major lipids found in the thylakoid membrane and it is thus involved in chloroplast biogenesis. Lipid biosynthesis is strongly influenced by light availability in several microalgae species, including Nannochloropsis gaditana: reduced chlorophyll content per cell and more homogenous irradiance in photobioreactor is at the base for the increased lipid productivity observed in the e8 mutant. Conclusions The results herein obtained presents a promising strategy to produce algal biomass enriched in lipid fraction to be used for biofuel and biodiesel production in a single cultivation process, without the additional complexity of the nutrient starvation phase. Genome sequencing and identification of the mutations introduced in e8 mutant suggest possible genes responsible for the observed phenotypes, identifying putative target for future complementation and biotechnological application.

Published

2019

50. The genetic basis of sex determination in grapevines (Vitis spp.)

Author

Amanda M. Vondras, Summaira Riaz, Rosa Figueroa-Balderas, Yongfeng Zhou, Aline Muyle, Mélanie Massonnet, Noé Cochetel, Jerry Lin, Jadran F. Garcia, Brandon S. Gaut, Dario Cantu, Andrea Minio, and Massimo Delledonne

Subjects

0106 biological sciences, Genetics, 0303 health sciences, Candidate gene, Wild species, Haplotype, Locus (genetics), Biology, 01 natural sciences, Genome, 03 medical and health sciences, Hermaphrodite, Domestication, 030304 developmental biology, 010606 plant biology & botany

Abstract

Sex determination in grapevine evolved through a complex succession of switches in sexual systems. Phased genomes built with single molecule real-time sequencing reads were assembled for eleven accessions of cultivated hermaphrodite grapevines and dioecious males and females, including the ancestor of domesticated grapevine and other related wild species. By comparing the phased sex haplotypes, we defined the sex locus of theVitisgenus and identified polymorphisms spanning regulatory and coding sequences that are in perfect association with each sex-type throughout the genus. These findings identified a novel male-fertility candidate gene,INP1, and significantly refined the model of sex determination inVitisand its evolution.

Published

2019