Provided herein is a thermolabile proteinase and methods of using the same. In some embodiments, the thermolabile proteinase may comprise an amino acid sequence that is at least 90% identical to any of SEQ ID NOs:1-11 and at least one amino acid substitution in helix 3. The thermolabile proteinase is active at a temperature in the range of 4° C.-40° C. and is inactivated by raising the temperature to above 50° C., where the proteinase is substantially inactive at 65° C.

Increased PARN as an indicator of a cancer involving loss or reduction in p53 function. PARN is also provided as a therapeutic target for treating a cancer involving loss or reduction in p53 function. Methods of treating a subject having a cancer involving loss or reduction in p53 function based on the level of PARN in a test sample obtained from the subject and administering an effective amount of a PARN inhibitor, alone or in conjunction with another chemotherapeutic agent, to the subject to treat the cancer.

Provided herein is a thermolabile proteinase and methods of using the same. In some embodiments, the thermolabile proteinase may comprise an amino acid sequence that is at least 90% identical to any of SEQ ID NOs:1-11 and at least one amino acid substitution in helix 3. The thermolabile proteinase is active at a temperature in the range of 4° C.-40° C. and is inactivated by raising the temperature to above 50° C., where the proteinase is substantially inactive at 65° C.

Provided herein is a thermolabile proteinase and methods of using the same. In some embodiments, the thermolabile proteinase may comprise an amino acid sequence that is at least 90% identical to any of SEQ ID NOs:1-11 and at least one amino acid substitution in helix 3. The thermolabile proteinase is active at a temperature in the range of 4 C.-40 C. and is inactivated by raising the temperature to above 50 C., where the proteinase is substantially inactive at 65 C.

Provided herein is a thermolabile proteinase and methods of using the same. In some embodiments, the thermolabile proteinase may comprise an amino acid sequence that is at least 90% identical to any of SEQ ID NOs:1-11 and at least one amino acid substitution in helix 3. The thermolabile proteinase is active at a temperature in the range of 4 C.-40 C. and is inactivated by raising the temperature to above 50 C., where the proteinase is substantially inactive at 65 C.

The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using renewable initiators coupled to a solid support. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template.

The disclosure relates to treating and diagnosing telomere diseases, and methods of screening agents for treating and diagnosing telomere diseases.

The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using enzymes and specially designed nucleotide analogs. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template. Because the nucleotide analogs have an unmodified 3 OH, i.e., as found in natural deoxyribose and ribose molecules, the analogs result in natural polynucleotides suitable for incorporation into biological systems.

The present invention relates to an immobilized poly(N)polymerase (PNP), methods of producing said PNP and uses thereof. Further disclosed is an enzyme reactor and kit comprising the PNP for producing polynucleotidylated ribonucleic acid poly(N)RNA)molecules which are useful in gene therapy, immunotherapy, protein replacement therapy and/or vaccination.

The invention provides improved methods for synthesizing polynucleotides, such as DNA and RNA, using renewable initiators coupled to a solid support. Using the methods of the invention, specific sequences of polynucleotides can be synthesized de novo, base by base, in an aqueous environment, without the use of a nucleic acid template.