Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.

Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.

The present invention relates to an aptamer or a functional fragment thereof, capable of specifically binding to PD-L1 or capable of inhibiting interaction between PD-1 and PD-L1 by specifically binding to PD-L1, which includes a nucleic acid sequence of SEQ ID NO. 1, 2, 10 or 18.

The present invention relates to an aptamer or a functional fragment thereof, capable of specifically binding to PD-L1 or capable of inhibiting interaction between PD-1 and PD-L1 by specifically binding to PD-L1, which includes a nucleic acid sequence of SEQ ID NO. 1, 2, 10 or 18.

Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.

Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.

The present invention relates to an aptamer comprising a nucleotide sequence SEQ ID NO: 1, preferably comprising or consisting of a nucleotide sequence SEQ ID NO: 4-6. The invention further relates to a composition comprising the aptamer, and the use of the aptamer as a medicament or a diagnostic reagent, particularly for use in the detection or diagnosing of a rejection of a renal allograft.

The present invention relates to an aptamer comprising a nucleotide sequence SEQ ID NO: 1, preferably comprising or consisting of a nucleotide sequence SEQ ID NO: 4-6. The invention further relates to a composition comprising the aptamer, and the use of the aptamer as a medicament or a diagnostic reagent, particularly for use in the detection or diagnosing of a rejection of a renal allograft.

Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.

Compositions and methods disclosed herein can help provide improved delivery of non-natural therapeutic nucleotides for the treatment of diseases such as cancer. An example composition includes an assembly of amphiphilic polynucleotides, where each amphiphilic polynucleotide includes an aptamer portion, a first nucleotide portion, and a second nucleotide portion.