De novo variants in CDKL1 and CDKL2 are associated with neurodevelopmental symptoms.

The CDKL (cyclin-dependent kinase-like) family consists of five members in humans, CDKL1-5, that encode serine-threonine kinases. The only member that has been associated with a Mendelian disorder is CDKL5, and variants in CDKL5 cause developmental and epileptic encephalopathy type 2 (DEE2). Here, we study four de novo variants in CDKL2 identified in five individuals, including three unrelated probands and monozygotic twins.

Transcriptome-wide outlier approach identifies individuals with minor spliceopathies.

RNA-sequencing has improved the diagnostic yield of individuals with rare diseases. Current analyses predominantly focus on identifying outliers in single genes that can be attributed to cis-acting variants within the gene locus. This approach overlooks causal variants with trans-acting effects on splicing transcriptome-wide, such as variants impacting spliceosome function.

Genome sequencing reveals novel variants in a diverse population with congenital anterior segment anomalies.

Congenital anterior segment anomalies are disorders that affect the development of the eye and cause severe visual impairment. The molecular basis of congenital anterior segment anomalies is not well known. In this study, genome sequencing was performed on 27 families from diverse ethnicities with congenital anterior segment anomalies and 11 variants were identified, most of which were novel and family specific.

-associated peripheral neuropathy defined by impaired binding with TUBB3.

encodes a kinesin motor protein associated with isolated congenital fibrosis of the extraocular muscles (CFEOM), which occurs when the autoinhibitory interaction between its motor and third coiled-coil domains is disrupted. In this study, we describe a female child who is heterozygous for a novel de novo missense variant in p.Leu664Pro, located in the second coiled-coil domain that was absent in her unaffected parents and in healthy population cohorts.

Identifying DNA Variants in a Turkish Cohort with Inner Ear Anomalies.

To determine the genetic causes of sensorineural hearing loss (SNHL) associated with inner ear anomalies, 11 unrelated Turkish individuals diagnosed with SNHL and an inner ear anomaly using temporal bone computed tomography and inner ear magnetic resonance imaging underwent exome or whole genome sequencing to identify underlying genetic defects. None of the individuals was diagnosed with a recognized syndrome. Four of the 11 probands were homozygous for variants, , , , and .