Structural variant allelic heterogeneity in MECP2 duplication syndrome provides insight into clinical severity and variability of disease expression.

Background: MECP2 Duplication Syndrome, also known as X-linked intellectual developmental disorder Lubs type (MRXSL; MIM: 300260), is a neurodevelopmental disorder caused by copy number gains spanning MECP2. Despite varying genomic rearrangement structures, including duplications and triplications, and a wide range of duplication sizes, no clear correlation exists between DNA rearrangement and clinical features. We had previously demonstrated that up to 38% of MRXSL families are characterized by complex genomic rearrangements (CGRs) of intermediate complexity (2 ≤ copy number variant breakpoints < 5), yet the impact of these genomic structures on regulation of gene expression and phenotypic manifestations have not been investigated.

Regulation of sarcomere formation and function in the healthy heart requires a titin intronic enhancer.

Heterozygous truncating variants in the sarcomere protein titin (TTN) are the most common genetic cause of heart failure. To understand mechanisms that regulate abundant cardiomyocyte TTN expression we characterized highly conserved intron 1 sequences that exhibited dynamic changes in chromatin accessibility during differentiation of human cardiomyocytes from induced pluripotent stem cells (hiPSC-CMs). Homozygous deletion of these sequences in mice caused embryonic lethality while heterozygous mice demonstrated allele-specific reduction in Ttn expression.

A combination of long- and short-read genomics reveals frequent p-arm breakpoints within chromosome 21 complex genomic rearrangements.

Purpose: Although chromosome 21 is the smallest human chromosome, it is highly relevant in the pathogenicity of both cancer and congenital diseases, including Alzheimer disease and trisomy 21 (Down syndrome). In addition, cases with rare structural variants (SVs) of chromosome 21 have been reported. These events vary in size and include large chromosomal events, such as ring chromosomes and small partial aneuploidies.

Dissecting the genetic admixture and forensic signatures of ethnolinguistically diverse Chinese populations via a 114-plex NGS InDel panel.

Comprehensive characterizations of genetic diversity and demographic models of ethnolinguistically diverse Chinese populations are essential for elucidating their forensic characteristics and evolutionary past. We developed a 114-plex NGS InDel panel to genotype 114 genome-wide markers and investigated the genetic structures of Zhuang, Hui, Miao, Li, Tibetan, Yi, and Mongolian populations, encompassing five language families. This panel demonstrated robust performance, with exceptional potential for forensic individual identification and paternity testing, evidenced by the combined power of discrimination for 77 autosomal InDels (ranged from 1-3.