Your search keyword '"Giannuzzi G"' showing total 49 results

1. Power systems stabilizers online tuning based upon parameters dynamic estimation

Author

Lauria, D., Mottola, F., Giannuzzi, G., Pisani, C., and Tessitore, S.

Published

2024

2. An advanced secondary voltage control strategy for future power systems

Author

Lauria, D., Mottola, F., Giannuzzi, G., and Pisani, C.

Published

2024

3. Chromatin three-dimensional interactions mediate genetic effects on gene expression

Author

Delaneau, O., Zazhytska, M., Borel, C., Giannuzzi, G., Rey, G., Howald, C., Kumar, S., Ongen, H., Popadin, K., Marbach, D., Ambrosini, G., Bielser, D., Hacker, D., Romano, L., Ribaux, P., Wiederkehr, M., Falconnet, E., Bucher, P., Bergmann, S., Antonarakis, S. E., Reymond, A., and Dermitzakis, E. T.

Published

2019

4. Generator Coherency Analysis in ENTSO-E Continental System: Current Status and Ongoing Developments in Italian and Swiss Case

Author

Giannuzzi, G., Pisani, C., and Sattinger, W.

Published

2016

5. Real-time tracking of electromechanical oscillations in ENTSO-e Continental European Synchronous Area

Author

Giannuzzi, G., Lauria, D., Pisani, C., and Villacci, D.

Published

2015

6. A Decentralized and Proactive Architecture based on the Cyber Physical System Paradigm for Smart Transmission Grids Modelling, Monitoring and Control

Author

Carlini, E. M., Giannuzzi, G. M., Mercogliano, P., Schiano, P., Vaccaro, A., and Villacci, D.

Published

2016

7. Techniques for the Analysis and Optimization of Electromechanical Stability towards Local and Inter-Area Oscillation Modes

Author

Piccagli, D., Barbieri, M., Pozzi, M., Giannuzzi, G., and Zaottini, R.

Published

2012

8. On-line analysis of the electrical system security: an extensive simulation approach in a dynamic security assessment (dsa) environment

Author

Candia, C., Cignatta, M., Pozzi, M., Stori, M., Giannuzzi, G., Sabelli, C., Salvati, R., and Zaottini, R.

Published

2011

9. New Insights into Centromere Organization and Evolution from the White-Cheeked Gibbon and Marmoset

Author

Cellamare, A, Catacchio, CR, Alkan, C, Giannuzzi, G, Antonacci, F, Cardone, MF, Della Valle, G, Malig, M, Rocchi, M, Eichler, EE, and Ventura, M

Published

2009

10. Su una applicazione di un teorema di a. Coppel

Author

Giannuzzi, G.

Published

1976

11. Exploring Remote Monitoring of Degraded Compression and Bolted Joints in HV Power Transmission Lines.

Author

de Paulis, F., Olivieri, C., Orlandi, A., Giannuzzi, G., Bassi, F., Morandini, C., Fiorucci, E., and Bucci, G.

Subjects

STRUCTURAL health monitoring, BOLTED joints, ELECTRIC power system management, UTILITY poles, ELECTRIC resistance measurement

Abstract

In this work preliminary yet comprehensive considerations are reported on the possibility for remote monitoring of degraded compression and bolted joints on high voltage overhead power lines. Measurements are performed on new, naturally aged, and artificially degraded joints to quantify the impedance discontinuity introduced along typical HV overhead lines. Numerical simulations, a preliminary time domain reflectometry (TDR) measurement campaign, and circuit simulations are performed on a real power line to study the TDR-based capabilities for the identification of the investigated joint impedances. This study sets the basic concepts to the development of a remote monitoring system for quantifying and locating degraded joints. [ABSTRACT FROM PUBLISHER]

Published

2016

12. Mechanical Behaviour of Multi-Span Overhead Transmission Lines Under Dynamic Thermal Stress of Conductors Due to Power Flow and Weather Conditions.

Author

Bassi, F., Giannuzzi, G., Giuntoli, M., Pelacchi, P., and Poli, D.

Subjects

THERMAL stresses, ELECTRIC lines, ELECTRICAL conductors, NEWTON-Raphson method, DYNAMIC models

Abstract

Dynamic Thermal Rating (DTR) of overhead transmission lines represents a significant improvement with respect to the traditional criteria used to assess the steady-stateampacity of conductors. In fact DTR uses actual operating conditions of the power line, rather than assumed conservative conditions. This is extremely promising for the secure operation of the power system: with DTR, TSOs can fully exploit the dynamic performances of conductors, i.e. currents significantly higher than the steady-state thermal limits, in the meantime that the system is redispatched. The present paper proposes a novel dynamic model for calculating sags and tensions in a multi-span power line, for purposes of DTR. The model considers not only the mechanical interaction between spans, due to rotation of strings, but also that the temperature of conductors can vary span by span, for different weather conditions. The problem was solved with a fast Newton-Raphson technique, rather than with conventional relaxation methods, in order to comply with the requirements of real-time operation. The developed tool is able to forecast the time trend of conductor temperatures, tensions, sags and clearances at each span, or to indicate which current can be carried for a given time, before a clearance or temperature onstraint is violated. A case study compares the results of this novel method with the outcomes of the traditional "ruling span" technique. [ABSTRACT FROM AUTHOR]

Published

2013

13. Wide area monitoring in the Italian power system: architecture, functions and experiences.

Author

Cirio, D., Lucarella, D., Giannuzzi, G., and Tuosto, F.

Published

2011

14. Genomics technologies to study structural variations in the grapevine genome

Author

Cardone Maria Francesca, Bergamini Carlo, D'Addabbo Pietro, Alkan Can, Catacchio Claudia Rita, Anaclerio Fabio, Chiatante Giorgia, Marra Annamaria, Giannuzzi Giuliana, Perniola Rocco, Ventura Mario, and Antonacci Donato

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

Grapevine is one of the most important crop plants in the world. Recently there was great expansion of genomics resources about grapevine genome, thus providing increasing efforts for molecular breeding. Current cultivars display a great level of inter-specific differentiation that needs to be investigated to reach a comprehensive understanding of the genetic basis of phenotypic differences, and to find responsible genes selected by cross breeding programs. While there have been significant advances in resolving the pattern and nature of single nucleotide polymorphisms (SNPs) on plant genomes, few data are available on copy number variation (CNV). Furthermore association between structural variations and phenotypes has been described in only a few cases. We combined high throughput biotechnologies and bioinformatics tools, to reveal the first inter-varietal atlas of structural variation (SV) for the grapevine genome. We sequenced and compared four table grape cultivars with the Pinot noir inbred line PN40024 genome as the reference. We detected roughly 8% of the grapevine genome affected by genomic variations. Taken into account phenotypic differences existing among the studied varieties we performed comparison of SVs among them and the reference and next we performed an in-depth analysis of gene content of polymorphic regions. This allowed us to identify genes showing differences in copy number as putative functional candidates for important traits in grapevine cultivation.

Published

2016

15. Analysis of high-identity segmental duplications in the grapevine genome

Author

Carelli Francesco N, Martinelli Maurizio, Gasparro Marica, D'Addabbo Pietro, Giannuzzi Giuliana, Antonacci Donato, and Ventura Mario

Subjects

Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Segmental duplications (SDs) are blocks of genomic sequence of 1-200 kb that map to different loci in a genome and share a sequence identity > 90%. SDs show at the sequence level the same characteristics as other regions of the human genome: they contain both high-copy repeats and gene sequences. SDs play an important role in genome plasticity by creating new genes and modeling genome structure. Although data is plentiful for mammals, not much was known about the representation of SDs in plant genomes. In this regard, we performed a genome-wide analysis of high-identity SDs on the sequenced grapevine (Vitis vinifera) genome (PN40024). Results We demonstrate that recent SDs (> 94% identity and >= 10 kb in size) are a relevant component of the grapevine genome (85 Mb, 17% of the genome sequence). We detected mitochondrial and plastid DNA and genes (10% of gene annotation) in segmentally duplicated regions of the nuclear genome. In particular, the nine highest copy number genes have a copy in either or both organelle genomes. Further we showed that several duplicated genes take part in the biosynthesis of compounds involved in plant response to environmental stress. Conclusions These data show the great influence of SDs and organelle DNA transfers in modeling the Vitis vinifera nuclear DNA structure as well as the impact of SDs in contributing to the adaptive capacity of grapevine and the nutritional content of grape products through genome variation. This study represents a step forward in the full characterization of duplicated genes important for grapevine cultural needs and human health.

Published

2011

16. Structural Design Criteria for Steel Components of Parabolic-Trough Solar Concentrators.

Author

Giannuzzi, G. M., Majorana, C. E., Miliozzi, A., Salomoni, V. A., and Nicolini, D.

Subjects

*SOLAR concentrators, *SOLAR collectors, *SOLAR energy, *SOLAR power plants, *STRUCTURAL design, *RESEARCH & development

Abstract

Starting from the R&D experience acquired, within the Italian context, in the field of the development of new technologies for solar energy exploitation, structural design criteria have been selected here to define a guideline for steel structures design and assessment of components of parabolic-trough solar concentrators. The main codes of practice used in Italy and in the European community have been considered and design criteria chosen to find a compromise between requirements of rules that should be followed precisely and costs. Loads, actions, and more generally, the whole design procedure has been considered in agreement with the limit state method; a new approach is critically and carefully proposed to use this method in designing and testing "special structures," such as the one analyzed here (e.g., wind and snow actions are evaluated and newly interpreted according to both the angular position of the collectors and the characteristic effects). A method for evaluating variable loads is proposed to integrate current Italian and European rules, and a dimensional reduction for some elements due to the limit state design approach is underlined. [ABSTRACT FROM AUTHOR]

Published

2007

17. AGAP duplicons associate with structural diversity at Chromosome 10q11.22.

Author

Fornezza S, Delvecchio VS, Harvey WT, Dishuck PC, Eichler EE, and Giannuzzi G

Subjects

Humans, Genomic Instability, Homologous Recombination, Genome, Human, Chromosome Inversion, Genomic Structural Variation, DNA Copy Number Variations, Chromosomes, Human, Pair 10 genetics, Haplotypes, Segmental Duplications, Genomic

Abstract

The 10q11.22 chromosomal region is a duplication-rich interval of the human genome and one of the last to be fully assembled. It carries copy number-variable genes associated with intellectual disability, bipolar disorder, and obesity. In this study, we characterized the structural diversity at this locus by analyzing 64 haploid assemblies produced by the Human Pangenome Reference Consortium. We identified 11 alternative haplotypes that differ in the copy number and/or orientation of large genomic segments, ranging from hundreds of kilobase pairs (kbp) to over one megabase pair (Mbp). We uncovered a 2.4 Mbp size difference between the shortest and longest haplotypes. Breakpoint analysis revealed that genomic instability results from nonallelic homologous recombination between segmental duplication (SD) pairs with varying similarity (94.4%-99.6%). Nonetheless, these pairs generally recombine at positions where their identity is higher (>99.6%). Recurrent inversions occur with different breakpoints within the same inverted SD pair. Inversion polymorphisms shuffle the entire SD arrangement, creating new predispositions to copy-number variations. The SD architecture is associated with a catarrhine-specific subgroup of the AGAP gene family, which likely triggered the accumulation of SDs at this locus over the past 25 million years of human evolution. Our results reveal extensive structural diversity and genomic instability at the 10q11.22 locus, and expand the general understanding of the mutational mechanisms behind SD-mediated rearrangements., (© 2024 Fornezza et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2024

18. Olfactory receptor genes and chromosome 11 structural aberrations: Players or spectators?

Author

Redaelli S, Grati FR, Tritto V, Giannuzzi G, Recalcati MP, Sala E, Villa N, Crosti F, Roversi G, Malvestiti F, Zanatta V, Repetti E, Rodeschini O, Valtorta C, Catusi I, Romitti L, Martinoli E, Conconi D, Dalprà L, Lavitrano M, Riva P, and Bentivegna A

Subjects

Humans, Comparative Genomic Hybridization, In Situ Hybridization, Fluorescence, Chromosome Aberrations, Translocation, Genetic genetics, Chromosomes, Human, Pair 11, Receptors, Odorant genetics

Abstract

The largest multi-gene family in metazoans is the family of olfactory receptor (OR) genes. Human ORs are organized in clusters over most chromosomes and seem to include >0.1% the human genome. Because 369 out of 856 OR genes are mapped on chromosome 11 (HSA11), we sought to determine whether they mediate structural rearrangements involving this chromosome. To this aim, we analyzed 220 specimens collected during diagnostic procedures involving structural rearrangements of chromosome 11. A total of 222 chromosomal abnormalities were included, consisting of inversions, deletions, translocations, duplications, and one insertion, detected by conventional chromosome analysis and/or fluorescence in situ hybridization (FISH) and array comparative genomic hybridization (array-CGH). We verified by bioinformatics and statistical approaches the occurrence of breakpoints in cytobands with or without OR genes. We found that OR genes are not involved in chromosome 11 reciprocal translocations, suggesting that different DNA motifs and mechanisms based on homology or non-homology recombination can cause chromosome 11 structural alterations. We also considered the proximity between the chromosomal territories of chromosome 11 and its partner chromosomes involved in the translocations by using the deposited Hi-C data concerning the possible occurrence of chromosome interactions. Interestingly, most of the breakpoints are located in regions highly involved in chromosome interactions. Further studies should be carried out to confirm the potential role of chromosome territories' proximity in promoting genome structural variation, so fundamental in our understanding of the molecular basis of medical genetics and evolutionary genetics., Competing Interests: Declaration of interests At the time of data collection, F.R.G. was, together with F.M., V.Z., and E.R., a full-time employee of TOMA Advanced Biomedical Assays S.p.A. (Impact Lab) without ownership shares. F.R.G. is currently a full-time employee of Menarini Silicon Biosystems, Reproductive Precision Medicine Unit., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

19. The pancancer overexpressed NFYC Antisense 1 controls cell cycle mitotic progression through in cis and in trans modes of action.

Author

Pandini C, Pagani G, Tassinari M, Vitale E, Bezzecchi E, Saadeldin MK, Doldi V, Giannuzzi G, Mantovani R, Chiara M, Ciarrocchi A, and Gandellini P

Subjects

Animals, Humans, Phylogeny, Gene Expression Regulation, Neoplastic, RNA, Antisense genetics, Cell Cycle genetics, Cell Proliferation genetics, Cell Line, Tumor, Cell Movement, Mammals genetics, CCAAT-Binding Factor genetics, Lung Neoplasms genetics, RNA, Long Noncoding genetics

Abstract

Antisense RNAs (asRNAs) represent an underappreciated yet crucial layer of gene expression regulation. Generally thought to modulate their sense genes in cis through sequence complementarity or their act of transcription, asRNAs can also regulate different molecular targets in trans, in the nucleus or in the cytoplasm. Here, we performed an in-depth molecular characterization of NFYC Antisense 1 (NFYC-AS1), the asRNA transcribed head-to-head to NFYC subunit of the proliferation-associated NF-Y transcription factor. Our results show that NFYC-AS1 is a prevalently nuclear asRNA peaking early in the cell cycle. Comparative genomics suggests a narrow phylogenetic distribution, with a probable origin in the common ancestor of mammalian lineages. NFYC-AS1 is overexpressed pancancer, preferentially in association with RB1 mutations. Knockdown of NFYC-AS1 by antisense oligonucleotides impairs cell growth in lung squamous cell carcinoma and small cell lung cancer cells, a phenotype recapitulated by CRISPR/Cas9-deletion of its transcription start site. Surprisingly, expression of the sense gene is affected only when endogenous transcription of NFYC-AS1 is manipulated. This suggests that regulation of cell proliferation is at least in part independent of the in cis transcription-mediated effect on NFYC and is possibly exerted by RNA-dependent in trans effects converging on the regulation of G2/M cell cycle phase genes. Accordingly, NFYC-AS1-depleted cells are stuck in mitosis, indicating defects in mitotic progression. Overall, NFYC-AS1 emerged as a cell cycle-regulating asRNA with dual action, holding therapeutic potential in different cancer types, including the very aggressive RB1-mutated tumors., (© 2024. The Author(s).)

Published

2024

20. High Prevalence of Long COVID in Common Variable Immunodeficiency: An Italian Multicentric Study.

Author

Villa A, Milito C, Deiana CM, Finco Gambier R, Punziano A, Buso H, Bez P, Lagnese G, Garzi G, Costanzo G, Giannuzzi G, Pagnozzi C, Dalm VASH, Spadaro G, Rattazzi M, Cinetto F, and Firinu D

Subjects

United States, Humans, Female, Post-Acute COVID-19 Syndrome, Prevalence, SARS-CoV-2, Italy epidemiology, COVID-19 epidemiology, Common Variable Immunodeficiency epidemiology

Abstract

The long-term effects of SARS-CoV-2 infection represent a relevant global health problem. Long COVID (LC) is defined as a complex of signs and symptoms developed during or after SARS-CoV-2 infection and lasting > 12 weeks. In common variable immunodeficiency (CVID) patients, we previously reported higher risk of hospitalization and death during SARS-CoV-2 infection, as well as prolonged swab positivity and frequent reinfections. The aim of the present study was to assess the risk of LC in an Italian cohort of CVID patients. We used a translated version of the survey proposed by Centers for Disease Control and Prevention (CDC) to collect data on LC. In the enrolled cohort of 175 CVID patients, we found a high prevalence of LC (65.7%). The most frequent LC symptoms were fatigue (75.7%), arthralgia/myalgia (48.7%), and dyspnea (41.7%). The majority of patients (60%) experienced prolonged symptoms, for at least 6 months after infection. In a multivariate analysis, the presence of complicated phenotype (OR 2.44, 95% CI 1.88-5.03; p = 0.015), obesity (OR 11.17, 95% CI 1.37-90.95; p = 0.024), and female sex (OR 2.06, 95% CI 1.09-3.89; p = 0.024) significantly correlated with the development of LC. In conclusion, in this multicenter observational cohort study, we demonstrated that CVID patients present an increased prevalence of LC when compared to the general population. Improved awareness on the risk of LC in CVID patients could optimize management of this new and alarming complication of SARS-CoV-2 infection., (© 2024. The Author(s).)

Published

2024

21. Author Correction: Possible association of 16p11.2 copy number variation with altered lymphocyte and neutrophil counts.

Author

Giannuzzi G, Chatron N, Mannik K, Auwerx C, Pradervand S, Willemin G, Hoekzema K, Nuttle X, Chrast J, Sadler MC, Porcu E, Herault Y, Isidor B, Gilbert-Dussardier B, Eichler EE, Kutalik Z, and Reymond A

Published

2023

22. Possible association of 16p11.2 copy number variation with altered lymphocyte and neutrophil counts.

Author

Giannuzzi G, Chatron N, Mannik K, Auwerx C, Pradervand S, Willemin G, Hoekzema K, Nuttle X, Chrast J, Sadler MC, Porcu E, Herault Y, Isidor B, Gilbert-Dussardier B, Eichler EE, Kutalik Z, and Reymond A

Abstract

Recurrent copy-number variations (CNVs) at chromosome 16p11.2 are associated with neurodevelopmental diseases, skeletal system abnormalities, anemia, and genitourinary defects. Among the 40 protein-coding genes encompassed within the rearrangement, some have roles in leukocyte biology and immunodeficiency, like SPN and CORO1A. We therefore investigated leukocyte differential counts and disease in 16p11.2 CNV carriers. In our clinically-recruited cohort, we identified three deletion carriers from two families (out of 32 families assessed) with neutropenia and lymphopenia. They had no deleterious single-nucleotide or indel variant in known cytopenia genes, suggesting a possible causative role of the deletion. Noticeably, all three individuals had the lowest copy number of the human-specific BOLA2 duplicon (copy-number range: 3-8). Consistent with the lymphopenia and in contrast with the neutropenia associations, adult deletion carriers from UK biobank (n = 74) showed lower lymphocyte (Padj = 0.04) and increased neutrophil (Padj = 8.31e-05) counts. Mendelian randomization studies pinpointed to reduced CORO1A, KIF22, and BOLA2-SMG1P6 expressions being causative for the lower lymphocyte counts. In conclusion, our data suggest that 16p11.2 deletion, and possibly also the lowest dosage of the BOLA2 duplicon, are associated with low lymphocyte counts. There is a trend between 16p11.2 deletion with lower copy-number of the BOLA2 duplicon and higher susceptibility to moderate neutropenia. Higher numbers of cases are warranted to confirm the association with neutropenia and to resolve the involvement of the deletion coupled with deleterious variants in other genes and/or with the structure and copy number of segments in the CNV breakpoint regions., (© 2022. The Author(s).)

Published

2022

23. Alpha Satellite Insertion Close to an Ancestral Centromeric Region.

Author

Giannuzzi G, Logsdon GA, Chatron N, Miller DE, Reversat J, Munson KM, Hoekzema K, Bonnet-Dupeyron MN, Rollat-Farnier PA, Baker CA, Sanlaville D, Eichler EE, Schluth-Bolard C, and Reymond A

Subjects

Centromere Protein B genetics, Centromere Protein B metabolism, DNA, Satellite genetics, Humans, In Situ Hybridization, Fluorescence, Centromere genetics, Centromere metabolism, Chromosomal Proteins, Non-Histone genetics

Abstract

Human centromeres are mainly composed of alpha satellite DNA hierarchically organized as higher-order repeats (HORs). Alpha satellite dynamics is shown by sequence homogenization in centromeric arrays and by its transfer to other centromeric locations, for example, during the maturation of new centromeres. We identified during prenatal aneuploidy diagnosis by fluorescent in situ hybridization a de novo insertion of alpha satellite DNA from the centromere of chromosome 18 (D18Z1) into cytoband 15q26. Although bound by CENP-B, this locus did not acquire centromeric functionality as demonstrated by the lack of constriction and the absence of CENP-A binding. The insertion was associated with a 2.8-kbp deletion and likely occurred in the paternal germline. The site was enriched in long terminal repeats and located ∼10 Mbp from the location where a centromere was ancestrally seeded and became inactive in the common ancestor of humans and apes 20-25 million years ago. Long-read mapping to the T2T-CHM13 human genome assembly revealed that the insertion derives from a specific region of chromosome 18 centromeric 12-mer HOR array in which the monomer size follows a regular pattern. The rearrangement did not directly disrupt any gene or predicted regulatory element and did not alter the methylation status of the surrounding region, consistent with the absence of phenotypic consequences in the carrier. This case demonstrates a likely rare but new class of structural variation that we name "alpha satellite insertion." It also expands our knowledge on alphoid DNA dynamics and conveys the possibility that alphoid arrays can relocate near vestigial centromeric sites., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2021

24. Variants in USP48 encoding ubiquitin hydrolase are associated with autosomal dominant non-syndromic hereditary hearing loss.

Author

Bassani S, van Beelen E, Rossel M, Voisin N, Morgan A, Arribat Y, Chatron N, Chrast J, Cocca M, Delprat B, Faletra F, Giannuzzi G, Guex N, Machavoine R, Pradervand S, Smits JJ, van de Kamp JM, Ziegler A, Amati F, Marlin S, Kremer H, Locher H, Maurice T, Gasparini P, Girotto G, and Reymond A

Subjects

Animals, Humans, Hydrolases, Reflex, Startle, Ubiquitin, Ubiquitin-Specific Proteases, Hearing Loss genetics, Zebrafish genetics

Abstract

Non-Syndromic Hereditary Hearing Loss (NSHHL) is a genetically heterogeneous sensory disorder with about 120 genes already associated. Through exome sequencing (ES) and data aggregation, we identified a family with six affected individuals and one unrelated NSHHL patient with predicted-to-be deleterious missense variants in USP48. We also uncovered an eighth patient presenting unilateral cochlear nerve aplasia and a de novo splice variant in the same gene. USP48 encodes a ubiquitin carboxyl-terminal hydrolase under evolutionary constraint. Pathogenicity of the variants is supported by in vitro assays that showed that the mutated proteins are unable to hydrolyze tetra-ubiquitin. Correspondingly, three-dimensional representation of the protein containing the familial missense variant is situated in a loop that might influence the binding to ubiquitin. Consistent with a contribution of USP48 to auditory function, immunohistology showed that the encoded protein is expressed in the developing human inner ear, specifically in the spiral ganglion neurons, outer sulcus, interdental cells of the spiral limbus, stria vascularis, Reissner's membrane and in the transient Kolliker's organ that is essential for auditory development. Engineered zebrafish knocked-down for usp48, the USP48 ortholog, presented with a delayed development of primary motor neurons, less developed statoacoustic neurons innervating the ears, decreased swimming velocity and circling swimming behavior indicative of vestibular dysfunction and hearing impairment. Corroboratingly, acoustic startle response assays revealed a significant decrease of auditory response of zebrafish lacking usp48 at 600 and 800 Hz wavelengths. In conclusion, we describe a novel autosomal dominant NSHHL gene through a multipronged approach combining ES, animal modeling, immunohistology and molecular assays., (© The Author(s) 2021. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2021

25. Variants in the degron of AFF3 are associated with intellectual disability, mesomelic dysplasia, horseshoe kidney, and epileptic encephalopathy.

Author

Voisin N, Schnur RE, Douzgou S, Hiatt SM, Rustad CF, Brown NJ, Earl DL, Keren B, Levchenko O, Geuer S, Verheyen S, Johnson D, Zarate YA, Hančárová M, Amor DJ, Bebin EM, Blatterer J, Brusco A, Cappuccio G, Charrow J, Chatron N, Cooper GM, Courtin T, Dadali E, Delafontaine J, Del Giudice E, Doco M, Douglas G, Eisenkölbl A, Funari T, Giannuzzi G, Gruber-Sedlmayr U, Guex N, Heron D, Holla ØL, Hurst ACE, Juusola J, Kronn D, Lavrov A, Lee C, Lorrain S, Merckoll E, Mikhaleva A, Norman J, Pradervand S, Prchalová D, Rhodes L, Sanders VR, Sedláček Z, Seebacher HA, Sellars EA, Sirchia F, Takenouchi T, Tanaka AJ, Taska-Tench H, Tønne E, Tveten K, Vitiello G, Vlčková M, Uehara T, Nava C, Yalcin B, Kosaki K, Donnai D, Mundlos S, Brunetti-Pierri N, Chung WK, and Reymond A

Subjects

Adolescent, Amino Acid Sequence, Animals, Brain Diseases etiology, Child, Child, Preschool, Epilepsy complications, Evolution, Molecular, Female, Gene Frequency, Humans, Infant, Male, Mice, Models, Molecular, Nuclear Proteins chemistry, Nuclear Proteins deficiency, Phenotype, Protein Stability, Syndrome, Transcriptional Elongation Factors chemistry, Transcriptional Elongation Factors genetics, Young Adult, Zebrafish genetics, Brain Diseases genetics, Epilepsy genetics, Fused Kidney genetics, Intellectual Disability genetics, Mutation, Missense, Nuclear Proteins genetics, Osteochondrodysplasias genetics

Abstract

The ALF transcription factor paralogs, AFF1, AFF2, AFF3, and AFF4, are components of the transcriptional super elongation complex that regulates expression of genes involved in neurogenesis and development. We describe an autosomal dominant disorder associated with de novo missense variants in the degron of AFF3, a nine amino acid sequence important for its binding to ubiquitin ligase, or with de novo deletions of this region. The sixteen affected individuals we identified, along with two previously reported individuals, present with a recognizable pattern of anomalies, which we named KINSSHIP syndrome (KI for horseshoe kidney, NS for Nievergelt/Savarirayan type of mesomelic dysplasia, S for seizures, H for hypertrichosis, I for intellectual disability, and P for pulmonary involvement), partially overlapping the AFF4-associated CHOPS syndrome. Whereas homozygous Aff3 knockout mice display skeletal anomalies, kidney defects, brain malformations, and neurological anomalies, knockin animals modeling one of the microdeletions and the most common of the missense variants identified in affected individuals presented with lower mesomelic limb deformities like KINSSHIP-affected individuals and early lethality, respectively. Overexpression of AFF3 in zebrafish resulted in body axis anomalies, providing some support for the pathological effect of increased amount of AFF3. The only partial phenotypic overlap of AFF3- and AFF4-associated syndromes and the previously published transcriptome analyses of ALF transcription factors suggest that these factors are not redundant and each contributes uniquely to proper development., (Copyright © 2021 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2021

26. Evolutionary Dynamics of the POTE Gene Family in Human and Nonhuman Primates.

Author

Maggiolini FAM, Mercuri L, Antonacci F, Anaclerio F, Calabrese FM, Lorusso N, L'Abbate A, Sorensen M, Giannuzzi G, Eichler EE, Catacchio CR, and Ventura M

Subjects

Animals, Chromosome Mapping, Computer Simulation, Evolution, Molecular, Female, Gene Expression Profiling, Gene Expression Regulation, Humans, Male, Pregnancy, Single Molecule Imaging, Tissue Distribution, Multigene Family, Ovary chemistry, Placenta chemistry, Primates genetics, Prostate chemistry, Testis chemistry

Abstract

POTE (prostate, ovary, testis, and placenta expressed) genes belong to a primate-specific gene family expressed in prostate, ovary, and testis as well as in several cancers including breast, prostate, and lung cancers. Due to their tumor-specific expression, POTEs are potential oncogenes, therapeutic targets, and biomarkers for these malignancies. This gene family maps within human and primate segmental duplications with a copy number ranging from two to 14 in different species. Due to the high sequence identity among the gene copies, specific efforts are needed to assemble these loci in order to correctly define the organization and evolution of the gene family. Using single-molecule, real-time (SMRT) sequencing, in silico analyses, and molecular cytogenetics, we characterized the structure, copy number, and chromosomal distribution of the POTE genes, as well as their expression in normal and disease tissues, and provided a comparative analysis of the POTE organization and gene structure in primate genomes. We were able, for the first time, to de novo sequence and assemble a POTE tandem duplication in marmoset that is misassembled and collapsed in the reference genome, thus revealing the presence of a second POTE copy. Taken together, our findings provide comprehensive insights into the evolutionary dynamics of the primate-specific POTE gene family, involving gene duplications, deletions, and long interspersed nuclear element (LINE) transpositions to explain the actual repertoire of these genes in human and primate genomes., Competing Interests: E.E.E. is on the scientific advisory board (SAB) of DNAnexus, Inc. All other authors declare no conflict of interest.

Published

2020

27. The Human-Specific BOLA2 Duplication Modifies Iron Homeostasis and Anemia Predisposition in Chromosome 16p11.2 Autism Individuals.

Author

Giannuzzi G, Schmidt PJ, Porcu E, Willemin G, Munson KM, Nuttle X, Earl R, Chrast J, Hoekzema K, Risso D, Männik K, De Nittis P, Baratz ED, Herault Y, Gao X, Philpott CC, Bernier RA, Kutalik Z, Fleming MD, Eichler EE, and Reymond A

Subjects

Animals, Chromosome Deletion, Chromosome Disorders genetics, DNA Copy Number Variations genetics, Female, Genotype, Heterozygote, Humans, Iron, Male, Phenotype, Anemia genetics, Autistic Disorder genetics, Chromosome Duplication genetics, Chromosomes, Human, Pair 16 genetics, Homeostasis genetics, Proteins genetics

Abstract

Human-specific duplications at chromosome 16p11.2 mediate recurrent pathogenic 600 kbp BP4-BP5 copy-number variations, which are among the most common genetic causes of autism. These copy-number polymorphic duplications are under positive selection and include three to eight copies of BOLA2, a gene involved in the maturation of cytosolic iron-sulfur proteins. To investigate the potential advantage provided by the rapid expansion of BOLA2, we assessed hematological traits and anemia prevalence in 379,385 controls and individuals who have lost or gained copies of BOLA2: 89 chromosome 16p11.2 BP4-BP5 deletion carriers and 56 reciprocal duplication carriers in the UK Biobank. We found that the 16p11.2 deletion is associated with anemia (18/89 carriers, 20%, p = 4e-7, OR = 5), particularly iron-deficiency anemia. We observed similar enrichments in two clinical 16p11.2 deletion cohorts, which included 6/63 (10%) and 7/20 (35%) unrelated individuals with anemia, microcytosis, low serum iron, or low blood hemoglobin. Upon stratification by BOLA2 copy number, our data showed an association between low BOLA2 dosage and the above phenotypes (8/15 individuals with three copies, 53%, p = 1e-4). In parallel, we analyzed hematological traits in mice carrying the 16p11.2 orthologous deletion or duplication, as well as Bola2 +/- and Bola2 -/- animals. The Bola2-deficient mice and the mice carrying the deletion showed early evidence of iron deficiency, including a mild decrease in hemoglobin, lower plasma iron, microcytosis, and an increased red blood cell zinc-protoporphyrin-to-heme ratio. Our results indicate that BOLA2 participates in iron homeostasis in vivo, and its expansion has a potential adaptive role in protecting against iron deficiency., (Copyright © 2019 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2019

28. Double- and Multi-Femtosecond Pulses Produced by Birefringent Crystals for the Generation of 2D Laser-Induced Structures on a Stainless Steel Surface.

Author

Fraggelakis F, Giannuzzi G, Gaudiuso C, Manek-Hönninger I, Mincuzzi G, Ancona A, and Kling R

Abstract

Laser-induced textures have been proven to be excellent solutions for modifying wetting, friction, biocompatibility, and optical properties of solids. The possibility to generate 2D-submicron morphologies by laser processing has been demonstrated recently. Employing double-pulse irradiation, it is possible to control the induced structures and to fabricate novel and more complex 2D-textures. Nevertheless, double-pulse irradiation often implies the use of sophisticated setups for modifying the pulse polarization and temporal profile. Here, we show the generation of homogeneous 2D-LIPSS (laser-induced periodic surface structures) over large areas utilizing a simple array of birefringent crystals. Linearly and circularly polarized pulses were applied, and the optimum process window was defined for both. The results are compared to previous studies, which include a delay line, and the reproducibility between the two techniques is validated. As a result of a systematic study of the process parameters, the obtained morphology was found to depend both on the interplay between fluence and inter-pulse delay, as well as on the number of incident pulses. The obtained structures were characterized via SEM (scanning electron microscopy) and atomic force microscopy. We believe that our results represent a novel approach to surface structuring, primed for introduction in an industrial environment.

Published

2019

29. Incubation during laser ablation with bursts of femtosecond pulses with picosecond delays.

Author

Gaudiuso C, Giannuzzi G, Volpe A, Lugarà PM, Choquet I, and Ancona A

Abstract

We report on an experimental investigation of the incubation effect during irradiation of stainless steel with bursts of ultrashort laser pulses. A series of birefringent crystals was used to split the pristine 650-fs pulses into bursts of up to 32 sub-pulses with time separations of 1.5 ps and 3 ps, respectively. The number of selected bursts was varied between 50 and 1600. The threshold fluence was measured in case of Burst Mode (BM) processing depending on the burst features, i.e. the number of sub-pulses and their separation time, and on the number of bursts. We found as many values of threshold fluence as the combinations of the number of bursts and of sub-pulses constituting the bursts set to give the same total number of impinging sub-pulses. However, existing incubation models developed for Normal Pulse Mode (NPM) return, for a given number of impinging pulses, a constant value of threshold fluence. Therefore, a dependence of the incubation coefficient with the burst features was hypothesized and experimentally investigated. Numerical solutions of the Two Temperature Model (TTM) in case of irradiation with single bursts of up to 4 sub-pulses have been performed to interpret the experimental results.

Published

2018

30. Inactivation of AMMECR1 is associated with growth, bone, and heart alterations.

Author

Moysés-Oliveira M, Giannuzzi G, Fish RJ, Rosenfeld JA, Petit F, Soares MF, Kulikowski LD, Di-Battista A, Zamariolli M, Xia F, Liehr T, Kosyakova N, Carvalheira G, Parker M, Seaby EG, Ennis S, Gilbert RD, Hagelstrom RT, Cremona ML, Li WL, Malhotra A, Chandrasekhar A, Perry DL, Taft RJ, McCarrier J, Basel DG, Andrieux J, Stumpp T, Antunes F, Pereira GJ, Neerman-Arbez M, Meloni VA, Drummond-Borg M, Melaragno MI, and Reymond A

Subjects

Animals, Blotting, Western, Bone and Bones metabolism, Cell Cycle genetics, Cell Cycle physiology, Cell Line, Exome genetics, Female, HeLa Cells, Humans, Male, Whole Genome Sequencing, Zebrafish, Bone and Bones physiology, Heart physiology, Proteins genetics

Abstract

We report five individuals with loss-of-function of the X-linked AMMECR1: a girl with a balanced X-autosome translocation and inactivation of the normal X-chromosome; two boys with maternally inherited and de novo nonsense variants; and two half-brothers with maternally inherited microdeletion variants. They present with short stature, cardiac and skeletal abnormalities, and hearing loss. Variants of unknown significance in AMMECR1 in four male patients from two families with partially overlapping phenotypes were previously reported. AMMECR1 is coexpressed with genes implicated in cell cycle regulation, five of which were previously associated with growth and bone alterations. Our knockdown of the zebrafish orthologous gene resulted in phenotypes reminiscent of patients' features. The increased transcript and encoded protein levels of AMMECR1L, an AMMECR1 paralog, in the t(X;9) patient's cells indicate a possible partial compensatory mechanism. AMMECR1 and AMMECR1L proteins dimerize and localize to the nucleus as suggested by their nucleic acid-binding RAGNYA folds. Our results suggest that AMMECR1 is potentially involved in cell cycle control and linked to a new syndrome with growth, bone, heart, and kidney alterations with or without elliptocytosis., (© 2017 Wiley Periodicals, Inc.)

Published

2018

31. The Immune Signaling Adaptor LAT Contributes to the Neuroanatomical Phenotype of 16p11.2 BP2-BP3 CNVs.

Author

Loviglio MN, Arbogast T, Jønch AE, Collins SC, Popadin K, Bonnet CS, Giannuzzi G, Maillard AM, Jacquemont S, Yalcin B, Katsanis N, Golzio C, and Reymond A

Subjects

Adaptor Proteins, Signal Transducing metabolism, Adaptor Proteins, Signal Transducing physiology, Adolescent, Adult, Aged, Aged, 80 and over, Animals, Autistic Disorder immunology, Autistic Disorder pathology, Brain metabolism, Child, Child, Preschool, Chromosome Deletion, Chromosome Disorders immunology, Chromosome Disorders pathology, Cohort Studies, Embryo, Nonmammalian metabolism, Embryo, Nonmammalian pathology, Female, Gene Expression Regulation, Developmental, Humans, Infant, Intellectual Disability immunology, Intellectual Disability pathology, Male, Membrane Proteins metabolism, Membrane Proteins physiology, Mice, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Phenotype, Phosphoproteins physiology, Signal Transduction, Young Adult, Zebrafish embryology, Zebrafish genetics, Zebrafish Proteins genetics, Zebrafish Proteins metabolism, Adaptor Proteins, Signal Transducing genetics, Autistic Disorder genetics, Brain pathology, Chromosome Disorders genetics, Chromosomes, Human, Pair 16 genetics, Chromosomes, Human, Pair 16 immunology, DNA Copy Number Variations, Intellectual Disability genetics, Membrane Proteins genetics, Microcephaly genetics, Microcephaly pathology

Abstract

Copy-number changes in 16p11.2 contribute significantly to neuropsychiatric traits. Besides the 600 kb BP4-BP5 CNV found in 0.5%-1% of individuals with autism spectrum disorders and schizophrenia and whose rearrangement causes reciprocal defects in head size and body weight, a second distal 220 kb BP2-BP3 CNV is likewise a potent driver of neuropsychiatric, anatomical, and metabolic pathologies. These two CNVs are engaged in complex reciprocal chromatin looping, intimating a functional relationship between genes in these regions that might be relevant to pathomechanism. We assessed the drivers of the distal 16p11.2 duplication by overexpressing each of the nine encompassed genes in zebrafish. Only overexpression of LAT induced a reduction of brain proliferating cells and concomitant microcephaly. Consistently, suppression of the zebrafish ortholog induced an increase of proliferation and macrocephaly. These phenotypes were not unique to zebrafish; Lat knockout mice show brain volumetric changes. Consistent with the hypothesis that LAT dosage is relevant to the CNV pathology, we observed similar effects upon overexpression of CD247 and ZAP70, encoding members of the LAT signalosome. We also evaluated whether LAT was interacting with KCTD13, MVP, and MAPK3, major driver and modifiers of the proximal 16p11.2 600 kb BP4-BP5 syndromes, respectively. Co-injected embryos exhibited an increased microcephaly, suggesting the presence of genetic interaction. Correspondingly, carriers of 1.7 Mb BP1-BP5 rearrangements that encompass both the BP2-BP3 and BP4-BP5 loci showed more severe phenotypes. Taken together, our results suggest that LAT, besides its well-recognized function in T cell development, is a major contributor of the 16p11.2 220 kb BP2-BP3 CNV-associated neurodevelopmental phenotypes., (Copyright © 2017 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2017

32. Mathematical modeling of Microcystis aeruginosa growth and [D-Leu 1 ] microcystin-LR production in culture media at different temperatures.

Author

Melina Celeste CM, Lorena R, Jorge Oswaldo A, Sandro G, Daniela S, Dario A, and Leda G

Subjects

Chlorophyll A metabolism, Marine Toxins, Culture Media chemistry, Microcystins biosynthesis, Microcystis growth & development, Models, Biological, Temperature

Abstract

The effect of temperature (26°C, 28°C, 30°C and 35°C) on the growth of native CAAT-3-2005 Microcystis aeruginosa and the production of Chlorophyll-a (Chl-a) and Microcystin-LR (MC-LR) were examined through laboratory studies. Kinetic parameters such as specific growth rate (μ), lag phase duration (LPD) and maximum population density (MPD) were determined by fitting the modified Gompertz equation to the M. aeruginosa strain cell count (cellsmL -1 ). A 4.8-fold increase in μ values and a 10.8-fold decrease in the LPD values were found for M. aeruginosa growth when the temperature changed from 15°C to 35°C. The activation energy of the specific growth rate (Eμ) and of the adaptation rate (E 1 /LPD) were significantly correlated (R 2 =0.86). The cardinal temperatures estimated by the modified Ratkowsky model were minimum temperature=8.58±2.34°C, maximum temperature=45.04±1.35°C and optimum temperature=33.39±0.55°C. Maximum MC-LR production decreased 9.5-fold when the temperature was increased from 26°C to 35°C. The maximum production values were obtained at 26°C and the maximum depletion rate of intracellular MC-LR was observed at 30-35°C. The MC-LR cell quota was higher at 26 and 28°C (83 and 80fgcell -1 , respectively) and the MC-LR Chl-a quota was similar at all the different temperatures (0.5-1.5fgng -1 ). The Gompertz equation and dynamic model were found to be the most appropriate approaches to calculate M. aeruginosa growth and production of MC-LR, respectively. Given that toxin production decreased with increasing temperatures but growth increased, this study demonstrates that growth and toxin production processes are uncoupled in M. aeruginosa. These data and models may be useful to predict M. aeruginosa bloom formation in the environment., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

33. Centromere Destiny in Dicentric Chromosomes: New Insights from the Evolution of Human Chromosome 2 Ancestral Centromeric Region.

Author

Chiatante G, Giannuzzi G, Calabrese FM, Eichler EE, and Ventura M

Subjects

Centromere physiology, DNA, Ancient, Evolution, Molecular, Humans, Translocation, Genetic, Centromere genetics, Chromosomes, Human, Pair 2

Abstract

Dicentric chromosomes are products of genomic rearrangements that place two centromeres on the same chromosome. Due to the presence of two primary constrictions, they are inherently unstable and overcome their instability by epigenetically inactivating and/or deleting one of the two centromeres, thus resulting in functionally monocentric chromosomes that segregate normally during cell division. Our understanding to date of dicentric chromosome formation, behavior and fate has been largely inferred from observational studies in plants and humans as well as artificially produced de novo dicentrics in yeast and in human cells. We investigate the most recent product of a chromosome fusion event fixed in the human lineage, human chromosome 2, whose stability was acquired by the suppression of one centromere, resulting in a unique difference in chromosome number between humans (46 chromosomes) and our most closely related ape relatives (48 chromosomes). Using molecular cytogenetics, sequencing, and comparative sequence data, we deeply characterize the relicts of the chromosome 2q ancestral centromere and its flanking regions, gaining insight into the ancestral organization that can be easily broadened to all acrocentric chromosome centromeres. Moreover, our analyses offered the opportunity to trace the evolutionary history of rDNA and satellite III sequences among great apes, thus suggesting a new hypothesis for the preferential inactivation of some human centromeres, including IIq. Our results suggest two possible centromere inactivation models to explain the evolutionarily stabilization of human chromosome 2 over the last 5-6 million years. Our results strongly favor centromere excision through a one-step process., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2017

34. Down-regulation of the mitochondrial aspartate-glutamate carrier isoform 1 AGC1 inhibits proliferation and N-acetylaspartate synthesis in Neuro2A cells.

Author

Profilo E, Peña-Altamira LE, Corricelli M, Castegna A, Danese A, Agrimi G, Petralla S, Giannuzzi G, Porcelli V, Sbano L, Viscomi C, Massenzio F, Palmieri EM, Giorgi C, Fiermonte G, Virgili M, Palmieri L, Zeviani M, Pinton P, Monti B, Palmieri F, and Lasorsa FM

Subjects

Amino Acid Transport Systems, Acidic deficiency, Amino Acid Transport Systems, Acidic genetics, Amino Acid Transport Systems, Acidic metabolism, Antiporters deficiency, Antiporters genetics, Antiporters metabolism, Aspartic Acid biosynthesis, Cell Line, Hereditary Central Nervous System Demyelinating Diseases genetics, Hereditary Central Nervous System Demyelinating Diseases metabolism, Hereditary Central Nervous System Demyelinating Diseases pathology, Humans, Mitochondrial Diseases genetics, Mitochondrial Diseases metabolism, Mitochondrial Diseases pathology, Neurons pathology, Psychomotor Disorders genetics, Psychomotor Disorders metabolism, Psychomotor Disorders pathology, Amino Acid Transport Systems biosynthesis, Aspartic Acid analogs & derivatives, Cell Proliferation, Down-Regulation, Mitochondrial Proteins biosynthesis, Neurons metabolism

Abstract

The mitochondrial aspartate-glutamate carrier isoform 1 (AGC1) catalyzes a Ca 2+ -stimulated export of aspartate to the cytosol in exchange for glutamate, and is a key component of the malate-aspartate shuttle which transfers NADH reducing equivalents from the cytosol to mitochondria. By sustaining the complete glucose oxidation, AGC1 is thought to be important in providing energy for cells, in particular in the CNS and muscle where this protein is mainly expressed. Defects in the AGC1 gene cause AGC1 deficiency, an infantile encephalopathy with delayed myelination and reduced brain N-acetylaspartate (NAA) levels, the precursor of myelin synthesis in the CNS. Here, we show that undifferentiated Neuro2A cells with down-regulated AGC1 display a significant proliferation deficit associated with reduced mitochondrial respiration, and are unable to synthesize NAA properly. In the presence of high glutamine oxidation, cells with reduced AGC1 restore cell proliferation, although oxidative stress increases and NAA synthesis deficit persists. Our data suggest that the cellular energetic deficit due to AGC1 impairment is associated with inappropriate aspartate levels to support neuronal proliferation when glutamine is not used as metabolic substrate, and we propose that delayed myelination in AGC1 deficiency patients could be attributable, at least in part, to neuronal loss combined with lack of NAA synthesis occurring during the nervous system development., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

35. Chromosomal contacts connect loci associated with autism, BMI and head circumference phenotypes.

Author

Loviglio MN, Leleu M, Männik K, Passeggeri M, Giannuzzi G, van der Werf I, Waszak SM, Zazhytska M, Roberts-Caldeira I, Gheldof N, Migliavacca E, Alfaiz AA, Hippolyte L, Maillard AM, Van Dijck A, Kooy RF, Sanlaville D, Rosenfeld JA, Shaffer LG, Andrieux J, Marshall C, Scherer SW, Shen Y, Gusella JF, Thorsteinsdottir U, Thorleifsson G, Dermitzakis ET, Deplancke B, Beckmann JS, Rougemont J, Jacquemont S, and Reymond A

Subjects

Adolescent, Adult, Aged, Autism Spectrum Disorder genetics, Body Mass Index, Child, Child, Preschool, Chromatin metabolism, Chromatin physiology, Chromosome Deletion, Chromosome Duplication, Chromosomes, Human, Pair 16 genetics, DNA Copy Number Variations genetics, Female, Humans, In Situ Hybridization, Fluorescence, Infant, Intellectual Disability genetics, Male, Megalencephaly genetics, Microcephaly genetics, Middle Aged, Phenotype, Autistic Disorder genetics, Chromosome Mapping methods, Chromosomes, Human, Pair 16 physiology, Obesity genetics

Abstract

Copy number variants (CNVs) are major contributors to genomic imbalance disorders. Phenotyping of 137 unrelated deletion and reciprocal duplication carriers of the distal 16p11.2 220 kb BP2-BP3 interval showed that these rearrangements are associated with autism spectrum disorders and mirror phenotypes of obesity/underweight and macrocephaly/microcephaly. Such phenotypes were previously associated with rearrangements of the non-overlapping proximal 16p11.2 600 kb BP4-BP5 interval. These two CNV-prone regions at 16p11.2 are reciprocally engaged in complex chromatin looping, as successfully confirmed by 4C-seq, fluorescence in situ hybridization and Hi-C, as well as coordinated expression and regulation of encompassed genes. We observed that genes differentially expressed in 16p11.2 BP4-BP5 CNV carriers are concomitantly modified in their chromatin interactions, suggesting that disruption of chromatin interplays could participate in the observed phenotypes. We also identified cis- and trans-acting chromatin contacts to other genomic regions previously associated with analogous phenotypes. For example, we uncovered that individuals with reciprocal rearrangements of the trans-contacted 2p15 locus similarly display mirror phenotypes on head circumference and weight. Our results indicate that chromosomal contacts' maps could uncover functionally and clinically related genes.

Published

2017

36. Inter-varietal structural variation in grapevine genomes.

Author

Cardone MF, D'Addabbo P, Alkan C, Bergamini C, Catacchio CR, Anaclerio F, Chiatante G, Marra A, Giannuzzi G, Perniola R, Ventura M, and Antonacci D

Subjects

Comparative Genomic Hybridization methods, DNA Copy Number Variations genetics, In Situ Hybridization, Fluorescence, Polymerase Chain Reaction, Genome, Plant genetics, Vitis genetics

Abstract

Grapevine (Vitis vinifera L.) is one of the world's most important crop plants, which is of large economic value for fruit and wine production. There is much interest in identifying genomic variations and their functional effects on inter-varietal, phenotypic differences. Using an approach developed for the analysis of human and mammalian genomes, which combines high-throughput sequencing, array comparative genomic hybridization, fluorescent in situ hybridization and quantitative PCR, we created an inter-varietal atlas of structural variations and single nucleotide variants (SNVs) for the grapevine genome analyzing four economically and genetically relevant table grapevine varieties. We found 4.8 million SNVs and detected 8% of the grapevine genome to be affected by genomic variations. We identified more than 700 copy number variation (CNV) regions and more than 2000 genes subjected to CNV as potential candidates for phenotypic differences between varieties., (© 2016 The Authors The Plant Journal © 2016 John Wiley & Sons Ltd.)

Published

2016

37. Emergence of a Homo sapiens-specific gene family and chromosome 16p11.2 CNV susceptibility.

Author

Nuttle X, Giannuzzi G, Duyzend MH, Schraiber JG, Narvaiza I, Sudmant PH, Penn O, Chiatante G, Malig M, Huddleston J, Benner C, Camponeschi F, Ciofi-Baffoni S, Stessman HA, Marchetto MC, Denman L, Harshman L, Baker C, Raja A, Penewit K, Janke N, Tang WJ, Ventura M, Banci L, Antonacci F, Akey JM, Amemiya CT, Gage FH, Reymond A, and Eichler EE

Subjects

Animals, Autistic Disorder genetics, Chromosome Breakage, Gene Duplication, Homeostasis genetics, Humans, Iron metabolism, Pan troglodytes genetics, Pongo genetics, Proteins analysis, Recombination, Genetic, Species Specificity, Time Factors, Chromosomes, Human, Pair 16 genetics, DNA Copy Number Variations genetics, Evolution, Molecular, Genetic Predisposition to Disease, Proteins genetics

Abstract

Genetic differences that specify unique aspects of human evolution have typically been identified by comparative analyses between the genomes of humans and closely related primates, including more recently the genomes of archaic hominins. Not all regions of the genome, however, are equally amenable to such study. Recurrent copy number variation (CNV) at chromosome 16p11.2 accounts for approximately 1% of cases of autism and is mediated by a complex set of segmental duplications, many of which arose recently during human evolution. Here we reconstruct the evolutionary history of the locus and identify bolA family member 2 (BOLA2) as a gene duplicated exclusively in Homo sapiens. We estimate that a 95-kilobase-pair segment containing BOLA2 duplicated across the critical region approximately 282 thousand years ago (ka), one of the latest among a series of genomic changes that dramatically restructured the locus during hominid evolution. All humans examined carried one or more copies of the duplication, which nearly fixed early in the human lineage--a pattern unlikely to have arisen so rapidly in the absence of selection (P < 0.0097). We show that the duplication of BOLA2 led to a novel, human-specific in-frame fusion transcript and that BOLA2 copy number correlates with both RNA expression (r = 0.36) and protein level (r = 0.65), with the greatest expression difference between human and chimpanzee in experimentally derived stem cells. Analyses of 152 patients carrying a chromosome 16p11. rearrangement show that more than 96% of breakpoints occur within the H. sapiens-specific duplication. In summary, the duplicative transposition of BOLA2 at the root of the H. sapiens lineage about 282 ka simultaneously increased copy number of a gene associated with iron homeostasis and predisposed our species to recurrent rearrangements associated with disease.

Published

2016

38. The chemosensitizing agent lubeluzole binds calmodulin and inhibits Ca(2+)/calmodulin-dependent kinase II.

Author

Bruno C, Cavalluzzi MM, Rusciano MR, Lovece A, Carrieri A, Pracella R, Giannuzzi G, Polimeno L, Viale M, Illario M, Franchini C, and Lentini G

Subjects

Animals, Calcium-Calmodulin-Dependent Protein Kinase Type 2 chemistry, Calcium-Calmodulin-Dependent Protein Kinase Type 2 metabolism, Cattle, Humans, Molecular Docking Simulation, Piperidines chemistry, Protein Conformation, Protein Kinase Inhibitors chemistry, Thiazoles chemistry, Calcium-Calmodulin-Dependent Protein Kinase Type 2 antagonists & inhibitors, Calmodulin metabolism, Piperidines metabolism, Piperidines pharmacology, Protein Kinase Inhibitors metabolism, Protein Kinase Inhibitors pharmacology, Thiazoles metabolism, Thiazoles pharmacology

Abstract

An affinity capillary electrophoresis (ACE) method to estimate apparent dissociation constants between bovine brain calmodulin (CaM) and non-peptidic ligands was developed. The method was validated reproducing the dissociation constants of a number of well-known CaM ligands. In particular, the potent antagonist 125-C9 was ad hoc synthesized through an improved synthetic procedure. The ACE method was successfully applied to verify CaM affinity for lubeluzole, a well-known neuroprotective agent recently proved useful to potentiate the activity of anti-cancer drugs. Lubeluzole was slightly less potent than 125-C9 (Kd = 2.9 ± 0.7 and 0.47 ± 0.06 μM, respectively) and displayed Ca(2+)/calmodulin-dependent kinase II (CaMKII) inhibition (IC50 = 40 ± 1 μM). Possible binding modes of lubeluzole to CaM were explored by docking studies based on the X-ray crystal structures of several trifluoperazine-CaM complexes. An estimated dissociation constant in good agreement with the experimental one was found and the main aminoacidic residues and interactions contributing to complex formation were highlighted. The possibility that interference with Ca(2+) pathways may contribute to the previously observed chemosensitizing effects of lubeluzole on human ovarian adenocarcinoma and lung carcinoma cells are discussed., (Copyright © 2016 Elsevier Masson SAS. All rights reserved.)

Published

2016

39. A Potential Contributory Role for Ciliary Dysfunction in the 16p11.2 600 kb BP4-BP5 Pathology.

Author

Migliavacca E, Golzio C, Männik K, Blumenthal I, Oh EC, Harewood L, Kosmicki JA, Loviglio MN, Giannuzzi G, Hippolyte L, Maillard AM, Alfaiz AA, van Haelst MM, Andrieux J, Gusella JF, Daly MJ, Beckmann JS, Jacquemont S, Talkowski ME, Katsanis N, and Reymond A

Subjects

Animals, Brain, Child, Child Development Disorders, Pervasive pathology, Chromosome Deletion, Ciliary Body metabolism, Ciliary Body pathology, Gene Expression Regulation, Humans, Mice, Potassium Channels, Voltage-Gated genetics, Schizophrenia pathology, Transcriptome, Zebrafish, Zebrafish Proteins genetics, Child Development Disorders, Pervasive genetics, Chromosomes, Human, Pair 16 genetics, DNA Copy Number Variations genetics, Schizophrenia genetics

Abstract

The 16p11.2 600 kb copy-number variants (CNVs) are associated with mirror phenotypes on BMI, head circumference, and brain volume and represent frequent genetic lesions in autism spectrum disorders (ASDs) and schizophrenia. Here we interrogated the transcriptome of individuals carrying reciprocal 16p11.2 CNVs. Transcript perturbations correlated with clinical endophenotypes and were enriched for genes associated with ASDs, abnormalities of head size, and ciliopathies. Ciliary gene expression was also perturbed in orthologous mouse models, raising the possibility that ciliary dysfunction contributes to 16p11.2 pathologies. In support of this hypothesis, we found structural ciliary defects in the CA1 hippocampal region of 16p11.2 duplication mice. Moreover, by using an established zebrafish model, we show genetic interaction between KCTD13, a key driver of the mirrored neuroanatomical phenotypes of the 16p11.2 CNV, and ciliopathy-associated genes. Overexpression of BBS7 rescues head size and neuroanatomical defects of kctd13 morphants, whereas suppression or overexpression of CEP290 rescues phenotypes induced by KCTD13 under- or overexpression, respectively. Our data suggest that dysregulation of ciliopathy genes contributes to the clinical phenotypes of these CNVs., (Copyright © 2015 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published

2015

40. Novel H3K4me3 marks are enriched at human- and chimpanzee-specific cytogenetic structures.

Author

Giannuzzi G, Migliavacca E, and Reymond A

Subjects

Animals, Chromosome Aberrations, Chromosome Breakpoints, Histones metabolism, Humans, Organ Specificity, Pan troglodytes genetics, Prefrontal Cortex metabolism, Species Specificity, Transcription Initiation Site, Centromere genetics, Genome, Human, Histones genetics, Telomere genetics

Abstract

Human and chimpanzee genomes are 98.8% identical within comparable sequences. However, they differ structurally in nine pericentric inversions, one fusion that originated human chromosome 2, and content and localization of heterochromatin and lineage-specific segmental duplications. The possible functional consequences of these cytogenetic and structural differences are not fully understood and their possible involvement in speciation remains unclear. We show that subtelomeric regions--regions that have a species-specific organization, are more divergent in sequence, and are enriched in genes and recombination hotspots--are significantly enriched for species-specific histone modifications that decorate transcription start sites in different tissues in both human and chimpanzee. The human lineage-specific chromosome 2 fusion point and ancestral centromere locus as well as chromosome 1 and 18 pericentric inversion breakpoints showed enrichment of human-specific H3K4me3 peaks in the prefrontal cortex. Our results reveal an association between plastic regions and potential novel regulatory elements., (© 2014 Giannuzzi et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2014

41. Antagonism of sorafenib and regorafenib actions by platelet factors in hepatocellular carcinoma cell lines.

Author

D'Alessandro R, Refolo MG, Lippolis C, Giannuzzi G, Carella N, Messa C, Cavallini A, and Carr BI

Subjects

Apoptosis drug effects, Apoptosis Regulatory Proteins metabolism, Carcinoma, Hepatocellular pathology, Cell Movement drug effects, Cell Proliferation drug effects, Enzyme Activation, Epidermal Growth Factor blood, Extracellular Signal-Regulated MAP Kinases metabolism, Hep G2 Cells, Humans, Insulin-Like Growth Factor I metabolism, Liver Neoplasms pathology, Neoplasm Invasiveness, Niacinamide pharmacology, Phosphorylation, Signal Transduction drug effects, Sorafenib, Time Factors, Antineoplastic Agents pharmacology, Blood Platelets metabolism, Carcinoma, Hepatocellular metabolism, Liver Neoplasms metabolism, Niacinamide analogs & derivatives, Phenylurea Compounds pharmacology, Protein Kinase Inhibitors pharmacology, Pyridines pharmacology

Abstract

Background: Platelets are frequently altered in hepatocellular carcinoma (HCC) patients. Platelet lysates (hPL) can enhance HCC cell growth and decrease apoptosis. The aims were to evaluate whether hPL can modulate the actions of sorafenib or regorafenib, two clinical HCC multikinase antagonists., Methods: Several human HCC cell lines were grown in the presence and absence of sorafenib or regorafenib, with or without hPL. Growth was measured by MTT assay, apoptosis was assessed by Annexin V and by western blot, and autophagy and MAPK growth signaling were also measured by western blot, and migration and invasion were measured by standard in vitro assays., Results: Both sorafenib and regorafenib-mediated inhibition of cell growth, migration and invasion were all antagonized by hPL. Drug-mediated apoptosis and decrease in phospho-ERK levels were both blocked by hPL, which also increased anti-apoptotic phospho-STAT, Bax and Bcl-xL levels. Preliminary data, obtained with epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I), included in hPL, revealed that these factors were able to antagonized sorafenib in a proliferation assay, in particular when used in combination., Conclusions: Platelet factors can antagonize sorafenib or regorafenib-mediated growth inhibition and apoptosis in HCC cells. The modulation of platelet activity or numbers has the potential to enhance multikinase drug actions.

Published

2014

42. Overexpression in E. coli and purification of the L. pneumophila Lpp2981 protein.

Author

Giannuzzi G, Lobefaro N, Paradies E, Vozza A, Punzi G, and Marobbio CM

Subjects

Bacterial Proteins metabolism, Cloning, Molecular, Codon, Escherichia coli genetics, Gene Expression Regulation, Bacterial drug effects, Isopropyl Thiogalactoside pharmacology, Legionella pneumophila genetics, Liposomes metabolism, Mutation, Open Reading Frames, Recombinant Proteins genetics, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Bacterial Proteins genetics, Bacterial Proteins isolation & purification, Escherichia coli metabolism, Legionella pneumophila metabolism

Abstract

The Lpp2981 gene from Legionella pneumophila, the causative agent of Legionnaire's disease, was cloned into the pMWT7 plasmid. The construct was used to express this gene in Escherichia coli. Five different bacterial strains were tested to overexpress the gene but without success. Sequence analysis revealed a cluster of four rare codons near the 5'-end of the gene. These codons were replaced with those commonly used in E. coli. The mutated Lpp2981 gene was successfully expressed in all the E. coli strains tested. The expressed protein (with an apparent molecular mass of 30 kDa) was collected in the insoluble fraction of the cell lysate, purified as inclusion bodies and functionally reconstituted into liposomes. The highest level of overexpression was obtained in E. coli C0214 after 6 h of induction with isopropyl-β-D-thiogalactopyranoside at 37 °C, yielding 74 mg of purified protein per liter of culture. We conclude that the clustering of rare codons at the 5'-end of the open-reading frame is a critical factor for the heterologous expression of Lpp2981 in E. coli.

Published

2014

43. Erratum to: AGC1 Deficiency Causes Infantile Epilepsy, Abnormal Myelination, and Reduced N-Acetylaspartate.

Author

Falk MJ, Li D, Gai X, McCormick E, Place E, Lasorsa FM, Otieno FG, Hou C, Kim CE, Abdel-Magid N, Vazquez L, Mentch FD, Chiavacci R, Liang J, Liu X, Jiang H, Giannuzzi G, Marsh ED, Guo Y, Tian L, Palmieri F, and Hakonarson H

Published

2014

44. AGC1 Deficiency Causes Infantile Epilepsy, Abnormal Myelination, and Reduced N-Acetylaspartate.

Author

Falk MJ, Li D, Gai X, McCormick E, Place E, Lasorsa FM, Otieno FG, Hou C, Kim CE, Abdel-Magid N, Vazquez L, Mentch FD, Chiavacci R, Liang J, Liu X, Jiang H, Giannuzzi G, Marsh ED, Yiran G, Tian L, Palmieri F, and Hakonarson H

Abstract

Background: Whole exome sequencing (WES) offers a powerful diagnostic tool to rapidly and efficiently sequence all coding genes in individuals presenting for consideration of phenotypically and genetically heterogeneous disorders such as suspected mitochondrial disease. Here, we report results of WES and functional validation in a consanguineous Indian kindred where two siblings presented with profound developmental delay, congenital hypotonia, refractory epilepsy, abnormal myelination, fluctuating basal ganglia changes, cerebral atrophy, and reduced N-acetylaspartate (NAA)., Methods: Whole blood DNA from one affected and one unaffected sibling was captured by Agilent SureSelect Human All Exon kit and sequenced on the Illumina HiSeq2000. Mutations were validated by Sanger sequencing in all family members. Protein from wild-type and mutant fibroblasts was isolated to assess mutation effects on protein expression and enzyme activity., Results: A novel SLC25A12 homozygous missense mutation, c.1058G>A; p.Arg353Gln, segregated with disease in this kindred. SLC25A12 encodes the neuronal aspartate-glutamate carrier 1 (AGC1) protein, an essential component of the neuronal malate/aspartate shuttle that transfers NADH and H(+) reducing equivalents from the cytosol to mitochondria. AGC1 activity enables neuronal export of aspartate, the glial substrate necessary for proper neuronal myelination. Recombinant mutant p.Arg353Gln AGC1 activity was reduced to 15% of wild type. One prior reported SLC25A12 mutation caused complete loss of AGC1 activity in a child with epilepsy, hypotonia, hypomyelination, and reduced brain NAA., Conclusions: These data strongly suggest that SLC25A12 disease impairs neuronal AGC1 activity. SLC25A12 sequencing should be considered in children with infantile epilepsy, congenital hypotonia, global delay, abnormal myelination, and reduced brain NAA.

Published

2014

45. Hominoid fission of chromosome 14/15 and the role of segmental duplications.

Author

Giannuzzi G, Pazienza M, Huddleston J, Antonacci F, Malig M, Vives L, Eichler EE, and Ventura M

Subjects

Animals, Chromosome Breakpoints, Chromosome Duplication, Chromosomes, Artificial, Bacterial, Cloning, Molecular, Euchromatin genetics, Heterochromatin genetics, Humans, Molecular Sequence Data, Phylogeny, Chromosomes, Human, Pair 14 genetics, Chromosomes, Human, Pair 15 genetics, Chromosomes, Mammalian genetics, Evolution, Molecular, Hominidae genetics, Segmental Duplications, Genomic

Abstract

Ape chromosomes homologous to human chromosomes 14 and 15 were generated by a fission event of an ancestral submetacentric chromosome, where the two chromosomes were joined head-to-tail. The hominoid ancestral chromosome most closely resembles the macaque chromosome 7. In this work, we provide insights into the evolution of human chromosomes 14 and 15, performing a comparative study between macaque boundary region 14/15 and the orthologous human regions. We construct a 1.6-Mb contig of macaque BAC clones in the region orthologous to the ancestral hominoid fission site and use it to define the structural changes that occurred on human 14q pericentromeric and 15q subtelomeric regions. We characterize the novel euchromatin-heterochromatin transition region (∼20 Mb) acquired during the neocentromere establishment on chromosome 14, and find it was mainly derived through pericentromeric duplications from ancestral hominoid chromosomes homologous to human 2q14-qter and 10. Further, we show a relationship between evolutionary hotspots and low-copy repeat loci for chromosome 15, revealing a possible role of segmental duplications not only in mediating but also in "stitching" together rearrangement breakpoints.

Published

2013

46. Evolutionary dynamism of the primate LRRC37 gene family.

Author

Giannuzzi G, Siswara P, Malig M, Marques-Bonet T, Mullikin JC, Ventura M, and Eichler EE

Subjects

Alternative Splicing, Animals, Base Sequence, Cerebellum metabolism, Chromosomes, Mammalian genetics, DNA chemistry, Gene Duplication, Gene Expression Profiling, Genome genetics, HeLa Cells, Humans, Leucine-Rich Repeat Proteins, Male, Mice, Molecular Sequence Data, Organ Specificity, Proteins metabolism, Testis metabolism, Thymus Gland metabolism, Transcription, Genetic genetics, Evolution, Molecular, Multigene Family genetics, Primates genetics, Proteins genetics

Abstract

Core duplicons in the human genome represent ancestral duplication modules shared by the majority of intrachromosomal duplication blocks within a given chromosome. These cores are associated with the emergence of novel gene families in the hominoid lineage, but their genomic organization and gene characterization among other primates are largely unknown. Here, we investigate the genomic organization and expression of the core duplicon on chromosome 17 that led to the expansion of LRRC37 during primate evolution. A comparison of the LRRC37 gene family organization in human, orangutan, macaque, marmoset, and lemur genomes shows the presence of both orthologous and species-specific gene copies in all primate lineages. Expression profiling in mouse, macaque, and human tissues reveals that the ancestral expression of LRRC37 was restricted to the testis. In the hominid lineage, the pattern of LRRC37 became increasingly ubiquitous, with significantly higher levels of expression in the cerebellum and thymus, and showed a remarkable diversity of alternative splice forms. Transfection studies in HeLa cells indicate that the human FLAG-tagged recombinant LRRC37 protein is secreted after cleavage of a transmembrane precursor and its overexpression can induce filipodia formation.

Published

2013

47. Legionella pneumophila secretes a mitochondrial carrier protein during infection.

Author

Dolezal P, Aili M, Tong J, Jiang JH, Marobbio CM, Lee SF, Schuelein R, Belluzzo S, Binova E, Mousnier A, Frankel G, Giannuzzi G, Palmieri F, Gabriel K, Naderer T, Hartland EL, and Lithgow T

Subjects

Adenosine Triphosphate, Bacterial Proteins genetics, Carrier Proteins genetics, Genetic Complementation Test, HeLa Cells, Humans, Legionella pneumophila genetics, Legionella pneumophila pathogenicity, Legionnaires' Disease genetics, Membrane Proteins genetics, Neorickettsia sennetsu genetics, Neorickettsia sennetsu metabolism, Neorickettsia sennetsu pathogenicity, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Bacterial Proteins metabolism, Bacterial Secretion Systems physiology, Carrier Proteins metabolism, Legionella pneumophila metabolism, Legionnaires' Disease metabolism, Membrane Proteins metabolism

Abstract

The Mitochondrial Carrier Family (MCF) is a signature group of integral membrane proteins that transport metabolites across the mitochondrial inner membrane in eukaryotes. MCF proteins are characterized by six transmembrane segments that assemble to form a highly-selective channel for metabolite transport. We discovered a novel MCF member, termed Legionellanucleotide carrier Protein (LncP), encoded in the genome of Legionella pneumophila, the causative agent of Legionnaire's disease. LncP was secreted via the bacterial Dot/Icm type IV secretion system into macrophages and assembled in the mitochondrial inner membrane. In a yeast cellular system, LncP induced a dominant-negative phenotype that was rescued by deleting an endogenous ATP carrier. Substrate transport studies on purified LncP reconstituted in liposomes revealed that it catalyzes unidirectional transport and exchange of ATP transport across membranes, thereby supporting a role for LncP as an ATP transporter. A hidden Markov model revealed further MCF proteins in the intracellular pathogens, Legionella longbeachae and Neorickettsia sennetsu, thereby challenging the notion that MCF proteins exist exclusively in eukaryotic organisms.

Published

2012

48. Characterization of missing human genome sequences and copy-number polymorphic insertions.

Author

Kidd JM, Sampas N, Antonacci F, Graves T, Fulton R, Hayden HS, Alkan C, Malig M, Ventura M, Giannuzzi G, Kallicki J, Anderson P, Tsalenko A, Yamada NA, Tsang P, Kaul R, Wilson RK, Bruhn L, and Eichler EE

Subjects

DNA Transposable Elements genetics, Gene Frequency, Genomic Structural Variation genetics, Genotype, Humans, In Situ Hybridization, Fluorescence, Molecular Sequence Data, Polymorphism, Genetic, Contig Mapping methods, Genome, Human, Sequence Analysis, DNA methods

Abstract

The extent of human genomic structural variation suggests that there must be portions of the genome yet to be discovered, annotated and characterized at the sequence level. We present a resource and analysis of 2,363 new insertion sequences corresponding to 720 genomic loci. We found that a substantial fraction of these sequences are either missing, fragmented or misassigned when compared to recent de novo sequence assemblies from short-read next-generation sequence data. We determined that 18-37% of these new insertions are copy-number polymorphic, including loci that show extensive population stratification among Europeans, Asians and Africans. Complete sequencing of 156 of these insertions identified new exons and conserved noncoding sequences not yet represented in the reference genome. We developed a method to accurately genotype these new insertions by mapping next-generation sequencing datasets to the breakpoint, thereby providing a means to characterize copy-number status for regions previously inaccessible to single-nucleotide polymorphism microarrays.

Published

2010

49. alpha-Isopropylmalate, a leucine biosynthesis intermediate in yeast, is transported by the mitochondrial oxalacetate carrier.

Author

Marobbio CM, Giannuzzi G, Paradies E, Pierri CL, and Palmieri F

Subjects

Acetates chemistry, Catalysis, Cytosol metabolism, Hydrolases metabolism, Isoleucine chemistry, Liposomes metabolism, Models, Biological, Models, Molecular, Molecular Conformation, Time Factors, Acetates metabolism, Biological Transport, Leucine metabolism, Malates metabolism, Mitochondria metabolism, Saccharomyces cerevisiae metabolism

Abstract

In Saccharomyces cerevisiae, alpha-isopropylmalate (alpha-IPM), which is produced in mitochondria, must be exported to the cytosol where it is required for leucine biosynthesis. Recombinant and reconstituted mitochondrial oxalacetate carrier (Oac1p) efficiently transported alpha-IPM in addition to its known substrates oxalacetate, sulfate, and malonate and in contrast to other di- and tricarboxylate transporters as well as the previously proposed alpha-IPM transporter. Transport was saturable with a half-saturation constant of 75 +/- 4 microm for alpha-IPM and 0.31 +/- 0.04 mm for beta-IPM and was inhibited by the substrates of Oac1p. Though not transported, alpha-ketoisocaproate, the immediate precursor of leucine in the biosynthetic pathway, inhibited Oac1p activity competitively. In contrast, leucine, alpha-ketoisovalerate, valine, and isoleucine neither inhibited nor were transported by Oac1p. Consistent with the function of Oac1p as an alpha-IPM transporter, cells lacking the gene for this carrier required leucine for optimal growth on fermentable carbon sources. Single deletions of other mitochondrial carrier genes or of LEU4, which is the only other enzyme that can provide the cytosol with alpha-IPM (in addition to Oac1p) exhibited no growth defect, whereas the double mutant DeltaOAC1DeltaLEU4 did not grow at all on fermentable substrates in the absence of leucine. The lack of growth of DeltaOAC1DeltaLEU4 cells was partially restored by adding the leucine biosynthetic cytosolic intermediates alpha-ketoisocaproate and alpha-IPM to these cells as well as by complementing them with one of the two unknown human mitochondrial carriers SLC25A34 and SLC25A35. Oac1p is important for leucine biosynthesis on fermentable carbon sources catalyzing the export of alpha-IPM, probably in exchange for oxalacetate.

Published

2008