Abstract: Genome editing systems, guide RNAs, and CRISPR-mediated methods are provided for altering portions of the HBG1 and HBG2 loci, portions of the erythroid specific enhancer of the BCL11A gene, or a combination thereof, in cells and increasing expression of fetal hemoglobin.

Abstract: Provided herein are CRISPR/Cas-related methods and components for editing a target nucleic acid sequence in a HBG1 and/or HBG2 gene regulatory region, and applications thereof in connection with methods of increasing expression of fetal hemoglobin and treating ?-hemoglobinopathies including sickle cell disease and ?-thalassemia.

Abstract: Genome editing systems, guide RNAs, and CRISPR-mediated methods are provided for altering portions of the HBG1 and HBG2 loci, portions of the erythroid specific enhancer of the BCL11A gene, or a combination thereof, in cells and increasing expression of fetal hemoglobin.

Abstract: The present disclosure is directed to methods of producing a modified nucleic acid comprising a precise deletion in a target nucleic acid in a cell comprising generating, within the cell, a first single strand break on a first strand of the target nucleic acid and a second single strand break on a second strand of the target nucleic acid, thereby forming a double strand break in the target nucleic acid having a first 3? overhang and a second 3? overhang; processing the first 3? overhang and the second 3? overhang with an exonuclease molecule, thereby deleting the segment of the target nucleic acid that was located between the first single strand break and the second single strand break, and forming a processed double strand break; and allowing the processed double strand break to be repaired by at least one DNA repair pathway, thereby producing the modified nucleic acid comprising the precise deletion in the target nucleic acid in the cell.

Abstract: The present disclosure is directed to methods of producing a modified nucleic acid comprising a precise deletion in a target nucleic acid in a cell comprising generating, within the cell, a first single strand break on a first strand of the target nucleic acid and a second single strand break on a second strand of the target nucleic acid, thereby forming a double strand break in the target nucleic acid having a first 3? overhang and a second 3? overhang; processing the first 3? overhang and the second 3? overhang with an exonuclease molecule, thereby deleting the segment of the target nucleic acid that was located between the first single strand break and the second single strand break, and forming a processed double strand break; and allowing the processed double strand break to be repaired by at least one DNA repair pathway, thereby producing the modified nucleic acid comprising the precise deletion in the target nucleic acid in the cell.

Abstract: CRISPR/CAS-related compositions and methods for treatment of beta hemoglobinopathies are disclosed.

Abstract: Genome editing systems, guide RNAs, and CRISPR-mediated methods are provided for altering portions of the HBG1 and HBG2 loci, portions of the erythroid specific enhancer of the BCL11A gene, or a combination thereof, in cells and increasing expression of fetal hemoglobin.

Abstract: The present disclosure is directed to methods of producing a modified nucleic acid comprising a precise deletion in a target nucleic acid in a cell comprising generating, within the cell, a first single strand break on a first strand of the target nucleic acid and a second single strand break on a second strand of the target nucleic acid, thereby forming a double strand break in the target nucleic acid having a first 3? overhang and a second 3? overhang; processing the first 3? overhang and the second 3? overhang with an exonuclease molecule, thereby deleting the segment of the target nucleic acid that was located between the first single strand break and the second single strand break, and forming a processed double strand break; and allowing the processed double strand break to be repaired by at least one DNA repair pathway, thereby producing the modified nucleic acid comprising the precise deletion in the target nucleic acid in the cell.