Abstract: Novel minor histocompatibility antigens (MiHAs) are described. These novel MiHAs were selected based on two features: (i) they are encoded by loci with a minor allele frequency (MAF) of at least 0.05; and (ii) they have adequate tissue distribution. Compositions, nucleic acids and cells related to these novel MiHAs are also described. The present application also discloses the use of these novel MiHAs, and related compositions, nucleic acids and cells, in applications related to cancer immunotherapy, for example for the treatment of hematologic cancers such as leukemia.

Abstract: Novel minor histocompatibility antigens (MiHAs) are described. These novel MiHAs were selected based on two features: (i) they are encoded by loci with a minor allele frequency (MAF) of at least 0.05; and (ii) they have adequate tissue distribution. Compositions, nucleic acids and cells related to these novel MiHAs are also described. The present application also discloses the use of these novel MiHAs, and related compositions, nucleic acids and cells, in applications related to cancer immunotherapy, for example for the treatment of hematologic cancers such as leukemia.

Abstract: A novel method for human minor histocompatibility antigen (MiHA) discovery, novel MiHAs identified using this method, as well as uses of the novel MiHAs, are described. One of the features of the novel method is the inclusion of personalized translated transcriptome and/or exome in the database used for peptide identification by mass spectroscopy (MS). Candidate MiHAs are identified by comparing the personalized transcriptome and/or exome to a reference genome and/or to the transcriptome and/or exome of an HLA-matched subject.

Abstract: Novel minor histocompatibility antigens (MiHAs) are described. These novel MiHAs were selected based on two features: (i) they are encoded by loci with a minor allele frequency (MAF) of at least 0.05; and (ii) they have adequate tissue distribution. Compositions, nucleic acids and cells related to these novel MiHAs are also described. The present application also discloses the use of these novel MiHAs, and related compositions, nucleic acids and cells, in applications related to cancer immunotherapy, for example for the treatment of hematologic cancers such as leukemia.

Abstract: A novel method for human minor histocompatibility antigen (MiHA) discovery, novel MiHAs identified using this method, as well as uses of the novel MiHAs, are described. One of the features of the novel method is the inclusion of personalized translated transcriptome and/or exome in the database used for peptide identification by mass spectroscopy (MS). Candidate MiHAs are identified by comparing the personalized transcriptome and/or exome to a reference genome and/or to the transcriptome and/or exome of an HLA-matched subject.

Abstract: A novel method for human minor histocompatibility antigen (MiHA) discovery, novel MiHAs identified using this method, as well as uses of the novel MiHAs, are described. One of the features of the novel method is the inclusion of personalized translated transcriptome and/or exome in the database used for peptide identification by mass spectroscopy (MS). Candidate MiHAs are identified by comparing the personalized transcriptome and/or exome to a reference genome and/or to the transcriptome and/or exome of an HLA-matched subject.

Abstract: A novel method for human minor histocompatibility antigen (MiHA) discovery, novel MiHAs identified using this method, as well as uses of the novel MiHAs, are described. One of the features of the novel method is the inclusion of personalized translated transcriptome and/or exome in the database used for peptide identification by mass spectroscopy (MS). Candidate MiHAs are identified by comparing the personalized transcriptome and/or exome to a reference genome and/or to the transcriptome and/or exome of an HLA-matched subject.