Coexistence of Duarte 1 and Duarte 2 variants of galactosemia with extrahepatic biliary atresia

Galactosemia is an autosomal recessive disorder caused by deficient or absent activities of one of the three enzymes involved in the galactose metabolic pathway. The predominant form is classic type galactosemia caused by severe reduction or absence of the galactose- 1-phosphate uridyl transferase (GALT) enzyme. Coexistence of extrahepatic biliary atresia (EHBA) with Duarte 1 and 2 variants of galactosemia has not been described earlier. Here we report a case of EHBA with concordant Duarte 1 and 2 variants of galactosemia in an infant with cholestasis. Genetic analysis of the index patient for galactosemia revealed presence of Duarte 1/Duarte 2 variants of galactosemia with genotype N314D-L218L/N314D-G1105C-GI391A- G1323A-5’UTR-119delGTCA. Clinical evaluation of the patient showed the presence of EHBA. Henceforth, it may be hypothesized that EHBA may have a genetic basis with simultaneous involvement of the GALT gene.

Systematic characterization of small RNAs associated with C.elegans Argonautes

Argonaute proteins generally play regulatory roles by forming complexes with the corresponding small RNAs(s RNAs).An expanded Argonaute family with 20 potentially functional members has been identified in Caenorhabditis elegans.Canonical s RNAs in C.elegans are mi RNAs,small interfering RNAs including 22G-RNAs and 26G-RNAs,and 21U-RNAs,which are C.elegans pi RNAs.Previous studies have only covered some of these Argonautes for their s RNA partners,and thus,a systematic study is needed to reveal the comprehensive regulatory networks formed by C.elegans Argonautes and their associated s RNAs.We obtained in situ knockin(KI)strains of all C.elegans Argonautes with fusion tags by CRISPR/Cas9 technology.RNA immunoprecipitation against these endogenously expressed Argonautes and high-throughput sequencing acquired the s RNA profiles of individual Argonautes.The s RNA partners for each Argonaute were then analyzed.We found that there were 10Argonautes enriched mi RNAs,17 Argonautes bound to 22G-RNAs,8 Argonautes bound to 26G-RNAs,and 1 Argonaute PRG-1bound to pi RNAs.Uridylated 22G-RNAs were bound by four Argonautes HRDE-1,WAGO-4,CSR-1,and PPW-2.We found that all four Argonautes played a role in transgenerational epigenetic inheritance.Regulatory roles of the corresponding Argonaute-s RNA complex in managing levels of long transcripts and interspecies regulation were also demonstrated.In this study,we portrayed the s RNAs bound to each functional Argonaute in C.elegans.Bioinformatics analyses together with experimental investigations provided perceptions in the overall view of the regulatory network formed by C.elegans Argonautes and s RNAs.The s RNA profiles bound to individual Argonautes reported here will be valuable resources for further studies.