Your search keyword '"Fatih, Jawid M."' showing total 4 results

1. Genomic Balancing Act: deciphering DNA rearrangements in the complex chromosomal aberration involving 5p15.2, 2q31.1, and 18q21.32

Author

Dardas, Zain, Marafi, Dana, Duan, Ruizhi, Fatih, Jawid M., El-Rashidy, Omnia F., Grochowski, Christopher M., Carvalho, Claudia M. B., Jhangiani, Shalini N., Bi, Weimin, Du, Haowei, Gibbs, Richard A., Posey, Jennifer E., Calame, Daniel G., Zaki, Maha S., and Lupski, James R.

Abstract

Despite extensive research into the genetic underpinnings of neurodevelopmental disorders (NDD), many clinical cases remain unresolved. We studied a female proband with a NDD, mildly dysmorphic facial features, and brain stem hypoplasia on neuroimaging. Comprehensive genomic analyses revealed a terminal 5p loss and a terminal 18q gain in the proband while a diploid copy number for chromosomes 5 and 18 in both parents. Genomic investigations in the proband identified an unbalanced translocation t(5;18) with additional genetic material from chromosome 2 (2q31.3) inserted at the breakpoint, pointing to a complex chromosomal rearrangement (CCR) involving 5p15.2, 2q31.3, and 18q21.32. Breakpoint junction analyses enabled by long-read genome sequencing unveiled the presence of four distinct junctions in the father, who is a carrier of a balanced CCR. The proband inherited from the father both the abnormal chromosome 5 resulting in segmental aneusomies of chr5 (loss) and chr18 (gain) and a der(2) homologue. Evidences suggest a chromoplexy mechanism for this CCR derivation, involving double-strand breaks (DSBs) repaired by non-homologous end joining (NHEJ) or alternative end joining (alt-EJ). The complexity of the CCR and the segregation of homologues elucidate the genetic model for this family. This study demonstrates the importance of combining multiple genomic technologies to uncover genetic causes of complex neurodevelopmental syndromes and to better understand genetic disease mechanisms.

Published

2024

2. Biallelic loss-of-function variants in the splicing regulator NSRP1cause a severe neurodevelopmental disorder with spastic cerebral palsy and epilepsy

Author

Calame, Daniel G., Bakhtiari, Somayeh, Logan, Rachel, Coban-Akdemir, Zeynep, Du, Haowei, Mitani, Tadahiro, Fatih, Jawid M., Hunter, Jill V., Herman, Isabella, Pehlivan, Davut, Jhangiani, Shalini N., Person, Richard, Schnur, Rhonda E., Jin, Sheng Chih, Bilguvar, Kaya, Posey, Jennifer E., Koh, Sookyong, Firouzabadi, Saghar G., Alehabib, Elham, Tafakhori, Abbas, Esmkhani, Sahra, Gibbs, Richard A., Noureldeen, Mahmoud M., Zaki, Maha S., Marafi, Dana, Darvish, Hossein, Kruer, Michael C., and Lupski, James R.

Abstract

Alternative splicing plays a critical role in mouse neurodevelopment, regulating neurogenesis, cortical lamination, and synaptogenesis, yet few human neurodevelopmental disorders are known to result from pathogenic variation in splicing regulator genes. Nuclear Speckle Splicing Regulator Protein 1 (NSRP1) is a ubiquitously expressed splicing regulator not known to underlie a Mendelian disorder.

Published

2021

3. Functional biology of the Steel syndrome founder allele and evidence for clan genomics derivation of COL27A1pathogenic alleles worldwide

Author

Gonzaga-Jauregui, Claudia, Yesil, Gozde, Nistala, Harikiran, Gezdirici, Alper, Bayram, Yavuz, Nannuru, Kalyan C., Pehlivan, Davut, Yuan, Bo, Jimenez, Johanna, Sahin, Yavuz, Paine, Ingrid S., Akdemir, Zeynep Coban, Rajamani, Saathyaki, Staples, Jeffrey, Dronzek, John, Howell, Kristen, Fatih, Jawid M., Smaldone, Silvia, Schlesinger, Alan E., Ramírez, Norman, Cornier, Alberto S., Kelly, Melissa A., Haber, Robert, Chim, Shek Man, Nieman, Kristy, Wu, Nan, Walls, Johnathon, Poueymirou, William, Siao, Chia-Jen, Sutton, V. Reid, Williams, Marc S., Posey, Jennifer E., Gibbs, Richard A., Carlo, Simon, Tegay, David H., Economides, Aris N., and Lupski, James R.

Abstract

Previously we reported the identification of a homozygous COL27A1(c.2089G>C; p.Gly697Arg) missense variant and proposed it as a founder allele in Puerto Rico segregating with Steel syndrome (STLS, MIM #615155); a rare osteochondrodysplasia characterized by short stature, congenital bilateral hip dysplasia, carpal coalitions, and scoliosis. We now report segregation of this variant in five probands from the initial clinical report defining the syndrome and an additional family of Puerto Rican descent with multiple affected adult individuals. We modeled the orthologous variant in murine Col27a1and found it recapitulates some of the major Steel syndrome associated skeletal features including reduced body length, scoliosis, and a more rounded skull shape. Characterization of the in vivo murine model shows abnormal collagen deposition in the extracellular matrix and disorganization of the proliferative zone of the growth plate. We report additional COL27A1pathogenic variant alleles identified in unrelated consanguineous Turkish kindreds suggesting Clan Genomics and identity-by-descent homozygosity contributing to disease in this population. The hypothesis that carrier states for this autosomal recessive osteochondrodysplasia may contribute to common complex traits is further explored in a large clinical population cohort. Our findings augment our understanding of COL27A1biology and its role in skeletal development; and expand the functional allelic architecture in this gene underlying both rare and common disease phenotypes.

Published

2020

4. Biallelic variation in the choline and ethanolamine transporter FLVCR1underlies a severe developmental disorder spectrum

Author

Calame, Daniel G., Wong, Jovi Huixin, Panda, Puravi, Nguyen, Dat Tuan, Leong, Nancy C.P., Sangermano, Riccardo, Patankar, Sohil G., Abdel-Hamid, Mohamed S., AlAbdi, Lama, Safwat, Sylvia, Flannery, Kyle P., Dardas, Zain, Fatih, Jawid M., Murali, Chaya, Kannan, Varun, Lotze, Timothy E., Herman, Isabella, Ammouri, Farah, Rezich, Brianna, Efthymiou, Stephanie, Alavi, Shahryar, Murphy, David, Firoozfar, Zahra, Nasab, Mahya Ebrahimi, Bahreini, Amir, Ghasemi, Majid, Haridy, Nourelhoda A., Goldouzi, Hamid Reza, Eghbal, Fatemeh, Karimiani, Ehsan Ghayoor, Begtrup, Amber, Elloumi, Houda, Srinivasan, Varunvenkat M., Gowda, Vykuntaraju K., Du, Haowei, Jhangiani, Shalini N., Coban-Akdemir, Zeynep, Marafi, Dana, Rodan, Lance, Isikay, Sedat, Rosenfeld, Jill A., Ramanathan, Subhadra, Staton, Michael, Oberg, Kerby C., Clark, Robin D., Wenman, Catharina, Loughlin, Sam, Saad, Ramy, Ashraf, Tazeen, Male, Alison, Tadros, Shereen, Boostani, Reza, Abdel-Salam, Ghada M.H., Zaki, Maha, Mardi, Ali, Hashemi-Gorji, Farzad, Abdalla, Ebtesam, Manzini, M. Chiara, Pehlivan, Davut, Posey, Jennifer E., Gibbs, Richard A., Houlden, Henry, Alkuraya, Fowzan S., Bujakowska, Kinga, Maroofian, Reza, Lupski, James R., and Nguyen, Long Nam

Abstract

FLVCR1encodes a solute carrier protein implicated in heme, choline, and ethanolamine transport. Although Flvcr1−/−mice exhibit skeletal malformations and defective erythropoiesis reminiscent of Diamond-Blackfan anemia (DBA), biallelic FLVCR1variants in humans have previously only been linked to childhood or adult-onset ataxia, sensory neuropathy, and retinitis pigmentosa.

Published

2024