The invention relates to the provision of antibody therapeutics and prophylactics that are tailored specifically for human use. The present invention provides libraries, vertebrates and cells, such as transgenic mice or rats or transgenic mouse or rat cells. Furthermore, the invention relates to methods of using the vertebrates to isolate antibodies or nucleotide sequences encoding antibodies. Antibodies, heavy chains, polypeptides, nucleotide sequences, pharmaceutical compositions and uses are also provided by the invention.

Provided herein is a polymerase-free enzyme mix (FRAG) for fragmenting double-stranded DNA. In some embodiments the enzyme mix may comprise a double-stranded DNA nickase and at least one of a DNA ligase capable of sealing a nick within a DNA, and a single-strand specific DNA nuclease. Methods for fragmenting double-stranded DNA are also provided.

The present invention provides a method and/or means for collecting and analyzing an individual cell in a tissue, and at the same time, quantitatively monitoring the expression levels of various genes while keeping two-dimensional information in the tissue. Specifically, the present invention provides a method comprising preparing a cDNA library from mRNA while keeping two-dimensional cellular distribution information and obtaining the gene expression levels at any site or all sites at a level of single cell. More specifically, the present invention provides a method comprising preparing a cDNA library in a sheet-form from mRNA while keeping two-dimensional cellular distribution information and repeatedly using the cDNA library in the detection of the gene expression, thereby allowing measurement of the expression distribution for a number of genes at a high accuracy.

The present invention provides a method and/or means for collecting and analyzing an individual cell in a tissue, and at the same time, quantitatively monitoring the expression levels of various genes while keeping two-dimensional information in the tissue. Specifically, the present invention provides a method comprising preparing a cDNA library from mRNA while keeping two-dimensional cellular distribution information and obtaining the gene expression levels at any site or all sites at a level of single cell. More specifically, the present invention provides a method comprising preparing a cDNA library in a sheet-form from mRNA while keeping two-dimensional cellular distribution information and repeatedly using the cDNA library in the detection of the gene expression, thereby allowing measurement of the expression distribution for a number of genes at a high accuracy.

A method of conducting an enzymatic reaction assay involving adenosine 5′-monophosphate (AMP) comprising the steps of reacting one or more compounds and producing AMP, deaminating the AMP to produce IMP, and oxidating the IMP by NAD+ to produce XMP and NADH.

Provided are an isolated oligonucleotide and a use thereof in nucleic acid sequencing, wherein the isolated oligonucleotide comprises a first strand, wherein the 5′-end nucleotide of the first strand has a phosphate group, and the 3′-end nucleotide of the first strand is a dideoxynucleotide, and a second strand, wherein the 5′-end nucleotide of the second strand does not have a phosphate group, and the 3′-end nucleotide of the second strand is a dideoxynucleotide, wherein the first strand is longer than the second strand in length, and a double-stranded structure is formed between the first strand and the second strand.

The present invention provides a primer for nucleic acid random fragmentation and a nucleic acid random fragmentation method. The primer consists of a plurality of upstream random primers and downstream random primers. The sequence composition of the upstream random primers is 5′-X-Y-3′, and the sequence composition of the downstream random primers is 5′-P-Y′-X′-close-3′, wherein Y and Y′ are random sequences, X is all or part of sequences of a sequencing platform 5′ end adaptor, X′ is all or part of sequences of a sequencing platform 3′ end adaptor, P is phosphorylation modification, and close is close modification. The primer of the present invention adopts double random anchoring of both the upstream random primers and the downstream random primers, and a DNA sample can be randomly broken.

The invention provides methods for preparing DNA sequencing libraries by assembling short read sequencing data into longer contiguous sequences for genome assembly, full length cDNA sequencing, metagenomics, and the analysis of repetitive sequences of assembled genomes.

Described herein are methods, compositions and kits for the generation of bisulfite-converted libraries useful for conducting reduced representation bisulfite sequencing (RRBS). The methods described herein can be employed to generate RRBS libraries in a manner that is easier and more cost-efficient than conventional RRBS methods, and can be efficiently sequenced with next generation sequencing (NGS) techniques without the need for genomic, higher diversity sequencing controls such as PhiX spike-ins.

The present disclosure provides an isolated, engineered or non-naturally occurring protein comprising an antibody light chain variable domain (V.sub.L) which may comprise at least one negatively charged amino acid positioned between residues 49 to 56 according to the numbering system of Kabat, the protein capable of binding specifically to an antigen.