Clinical management of human cancer is dependent on the accurate monitoring of residual and recurrent tumors. We have developed a method, called personalized analysis of rearranged ends (PARE), which can identify translocations in solid tumors. Analysis of four colorectal and two breast cancers revealed an average of nine rearranged sequences (range 4 to 15) per tumor. Polymerase chain reaction with primers spanning the breakpoints were able to detect mutant DNA molecules present at levels lower than 0.001% and readily identified mutated circulating DNA in patient plasma samples. This approach provides an exquisitely sensitive and broadly applicable approach for the development of personalized biomarkers to enhance the clinical management of cancer patients.

Methods, devices and systems are provided herein for surfaces for de novo polynucleotide synthesis that provide for increased polynucleotide yield. Surfaces described herein comprise a texture that increases surface area provide for increased polynucleotide yield compared to non-textured surfaces. In addition, the patterned placement of nucleoside coupling reagent spanning such surfaces provides for improved synthesis yield, representation, and a reduction in contamination on the surface between different polynucleotide species.

The invention provides novel methods and materials for genetic and genomic analysis using single or multiplex isolation of protein-associated nucleic acids, including transposase-assisted chromatin immunoprecipitation (TAM-ChIP) and antibody-oligonucleotide proximity ligation. These methods comprise tagging and isolating chromatin or other protein-associated nucleic acids and using antibody-oligonucleotide complexes that recognize the proteins associated with such nucleic acids.

Provided herein is an improved method of antibody affinity maturation that uses true natural CDRs from a population of naturally occurring antibodies targeting a single antigen or antigenic epitope such that the improved method produces functional antibodies having low-picomolar affinity antibodies. Also provided herein is an antibody library where the CDRs within a single antibody member of the library are a combination of CDR sequences of naturally occurring antibodies and one or more CDRs are derived from different naturally occurring antibodies targeting a single antigen or antigenic epitope.

Provided herein is an improved method of antibody affinity maturation that uses true natural CDRs from a population of naturally occurring antibodies targeting a single antigen or antigenic epitope such that the improved method produces functional antibodies having low-picomolar affinity antibodies. Also provided herein is an antibody library where the CDRs within a single antibody member of the library are a combination of CDR sequences of naturally occurring antibodies and one or more CDRs are derived from different naturally occurring antibodies targeting a single antigen or antigenic epitope.

De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.

De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein.

Provided herein are polypeptides that bind to a transferrin receptor, methods of generating such polypeptides, and methods of using the polypeptides to target a composition to a transferrin receptor-expressing cell.

Provided herein are polypeptides that bind to a transferrin receptor, methods of generating such polypeptides, and methods of using the polypeptides to target a composition to a transferrin receptor-expressing cell.

De novo synthesized large libraries of nucleic acids are provided herein with low error rates. Further, devices for the manufacturing of high-quality building blocks, such as oligonucleotides, are described herein. Longer nucleic acids can be synthesized in parallel using microfluidic assemblies. Further, methods herein allow for the fast construction of large libraries of long, high-quality genes. Devices for the manufacturing of large libraries of long and high-quality nucleic acids are further described herein