Provided herein are compositions, methods, devices, and systems for highly accurate and pure RNA synthesis. Also provided herein are nucleic acid libraries comprising RNAs generated by using devices, compositions and methods disclosed herein.

Provided herein are compositions, methods, devices, and systems for highly accurate and pure RNA synthesis. Also provided herein are nucleic acid libraries comprising RNAs generated by using devices, compositions and methods disclosed herein.

Provided herein, in some aspects, are methods and compositions for cell-free production of ribonucleic acid.

Provided herein, in some aspects, are methods and compositions for cell-free production of ribonucleic acid.

Disclosed herein include systems, methods, compositions, and kits for in situ readout of barcodes, such as DNA barcodes. Barcode constructs containing a promoter (e.g., a phage promoter) that is inactive in live cells can be integrated in the genomes of cells. Cells can be fixed, and phage RNA polymerase can be used for transcription of the barcode to RNA transcripts. The RNA transcripts can be detected using, for example, fluorescent imaging and used to determine barcode sequences.

Disclosed herein include systems, methods, compositions, and kits for in situ readout of barcodes, such as DNA barcodes. Barcode constructs containing a promoter (e.g., a phage promoter) that is inactive in live cells can be integrated in the genomes of cells. Cells can be fixed, and phage RNA polymerase can be used for transcription of the barcode to RNA transcripts. The RNA transcripts can be detected using, for example, fluorescent imaging and used to determine barcode sequences.

Disclosed herein include systems, methods, compositions, and kits for in situ readout of barcodes, such as DNA barcodes. Barcode constructs containing a promoter (e.g., a phage promoter) that is inactive in live cells can be integrated in the genomes of cells. Cells can be fixed, and phage RNA polymerase can be used for transcription of the barcode to RNA transcripts. The RNA transcripts can be detected using, for example, fluorescent imaging and used to determine barcode sequences.

Disclosed herein include systems, methods, compositions, and kits for in situ readout of barcodes, such as DNA barcodes. Barcode constructs containing a promoter (e.g., a phage promoter) that is inactive in live cells can be integrated in the genomes of cells. Cells can be fixed, and phage RNA polymerase can be used for transcription of the barcode to RNA transcripts. The RNA transcripts can be detected using, for example, fluorescent imaging and used to determine barcode sequences.

Compositions and methods for amplifying RNA by replication using transcription polymerases are disclosed. Such replicated RNAs can be used in various applications such as RNAi therapeutics, diagnostic probes, RNA sequencing, directed evolution of RNA aptamers without intermediate conversion to DNA, and RNA vaccines. The transcription polymerases comprise T7 bacteriophage RNA polymerase.

Compositions and methods for amplifying RNA by replication using transcription polymerases are disclosed. Such replicated RNAs can be used in various applications such as RNAi therapeutics, diagnostic probes, RNA sequencing, directed evolution of RNA aptamers without intermediate conversion to DNA, and RNA vaccines. The transcription polymerases comprise T7 bacteriophage RNA polymerase.