Nicholas Caruccio scite author profile

We characterize and extend a highly efficient method for constructing shotgun fragment libraries in which transposase catalyzes in vitro DNA fragmentation and adaptor incorporation simultaneously. We apply this method to sequencing a human genome and find that coverage biases are comparable to those of conventional protocols. We also extend its capabilities by developing protocols for sub-nanogram library construction, exome capture from 50 ng of input DNA, PCR-free and colony PCR library construction, and 96-plex sample indexing.

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The chickoligozeugodactyly(ozd) mutant lacks sonic hedgehog function in the limb

Ros

et al. 2003

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We have analyzed a new limb mutant in the chicken that we nameoligozeugodactyly (ozd). The limbs of this mutant have a longitudinal postaxial defect, lacking the posterior element in the zeugopod(ulna/fibula) and all digits except digit 1 in the leg. Classical recombination experiments show that the limb mesoderm is the defective tissue layer in ozd limb buds. Molecular analysis revealed that theozd limbs develop in the absence of Shh expression, while all other organs express Shh and develop normally. NeitherPtc1 nor Gli1 are detectable in mutant limb buds. However,Bmp2 and dHAND are expressed in the posterior wing and leg bud mesoderm, although at lower levels than in normal embryos. Activation ofHoxd11-13 occurs normally in ozd limbs but progressively declines with time. Phase III of expression is more affected than phase II,and expression is more severely affected in the more 5′ genes. Interestingly, re-expression of Hoxd13 occurs at late stages in the distal mesoderm of ozd leg buds, correlating with formation of digit 1. Fgf8 and Fgf4 expression are initiated normally in the mutant AER but their expression is progressively downregulated in the anterior AER. Recombinant Shh protein or ZPA grafts restore normal pattern toozd limbs; however, retinoic acid fails to induce Shh in ozdlimb mesoderm. We conclude that Shh function is required for limb development distal to the elbow/knee joints, similar to the Shh-/-mouse. Accordingly we classify the limb skeletal elements as Shh dependent or independent, with the ulna/fibula and digits other than digit 1 in the leg being Shh dependent. Finally we propose that the ozd mutation is most likely a defect in a regulatory element that controls limb-specific expression of Shh.

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Preparation of Next-Generation Sequencing Libraries Using Nextera™ Technology: Simultaneous DNA Fragmentation and Adaptor Tagging by In Vitro Transposition

Caruccio¹

2011

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DNA library preparation is a common entry point and bottleneck for next-generation sequencing. Current methods generally consist of distinct steps that often involve significant sample loss and hands-on time: DNA fragmentation, end-polishing, and adaptor-ligation. In vitro transposition with Nextera™ Transposomes simultaneously fragments and covalently tags the target DNA, thereby combining these three distinct steps into a single reaction. Platform-specific sequencing adaptors can be added, and the sample can be enriched and bar-coded using limited-cycle PCR to prepare di-tagged DNA fragment libraries. Nextera technology offers a streamlined, efficient, and high-throughput method for generating bar-coded libraries compatible with multiple next-generation sequencing platforms.

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Analysis of the regulation of lin‐41 during chick and mouse limb development

Lancman

Caruccio

Harfe

et al. 2005

Developmental Dynamics

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We have cloned the chicken and mouse orthologues of the Caenorhabditis elegans heterochronic gene lin-41. During limb development, lin-41 is expressed in three phases over developmental time and most notably is associated with the developing autopod. Using chicken and mouse mutants and bead implantations, we report that lin-41 is genetically and biochemically downstream of both the Shh and Fgf signaling pathways. In C. elegans, it is proposed that lin-41 activity is temporally regulated by miRNAs (let-7 and lin-4) that bind to complementary sites in the lin-41 3 -untranslated region (UTR). Taking a bioinformatics approach, we also report the presence of potential miRNA binding sites in the 3 -UTR of chicken lin-41, including sites for the chicken orthologues of both C. elegans let-7 and lin-4. Finally, we show that these miRNAs and others are expressed in the chick limb consistent with the hypothesis that they regulate chicken Lin-41 activity in vivo. Developmental Dynamics 234:948 -960, 2005.

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