Additional file 3: Figure S2. Signal peptide prediction by (A) Signal IP server and (B) Phobious server. Signal peptide was predicted in between amino acid positions 30 to 40
Additional file 4. Amino acid alignment of PkMSP1 (A) Domain I, (B) Domain III, (C) Domain V and (D)...
Additional file 1: Table S1. Accession number of PkTRAP sequences used in the study and their geogra...
Figure S1. Nucleotide variants of 38 haplotypes of P. knowlesi MSP1-42. Identical nucleotides are ma...
Additional file 2: Figure S1. Signal peptide and trans membrane prediction by (A) Signal IP server a...
Additional file 2: Table S1. Accession number of PkMSP1P sequences used in the study and their geogr...
Additional file 7. Amino acid alignment of PvMS1P and PkMSP1P 19 kDa domain. Conserved regions are h...
Additional file 6. Amino acid polymorphism within 40 PkMSP1P sequences from Malaysia
Additional file 9. (A) K= 4, Population structure of Plasmodium knowlesi in Malaysia based on MSP1P....
Additional file 10. Population differentiation values (F ST ) based on pkmsp1p-42
Additional file 4: Figure S3. Alignment showing the deletion of the (A) tandem repeat regions and th...
Additional file 3: Figure S2. Amino acid polymorphism within 40 PkTRAP sequences from Malaysia and t...
Additional file 5. Nucleotide polymorphism and dimorphism within 7 full-length PkMSP1P sequences fro...
Additional file 3. Schematic diagram of Plasmodium knowlesi MSP1 protein domains. Each box in the sc...
Additional file 5. Graphical representation of nucleotide diversity of PkMSP1 at the 33Â kDa and 19Â...
Additional file 2. Accession number of PkMSP1 sequences used in the study and their geographical ori...
Additional file 4. Amino acid alignment of PkMSP1 (A) Domain I, (B) Domain III, (C) Domain V and (D)...
Additional file 1: Table S1. Accession number of PkTRAP sequences used in the study and their geogra...
Figure S1. Nucleotide variants of 38 haplotypes of P. knowlesi MSP1-42. Identical nucleotides are ma...
Additional file 2: Figure S1. Signal peptide and trans membrane prediction by (A) Signal IP server a...
Additional file 2: Table S1. Accession number of PkMSP1P sequences used in the study and their geogr...
Additional file 7. Amino acid alignment of PvMS1P and PkMSP1P 19 kDa domain. Conserved regions are h...
Additional file 6. Amino acid polymorphism within 40 PkMSP1P sequences from Malaysia
Additional file 9. (A) K= 4, Population structure of Plasmodium knowlesi in Malaysia based on MSP1P....
Additional file 10. Population differentiation values (F ST ) based on pkmsp1p-42
Additional file 4: Figure S3. Alignment showing the deletion of the (A) tandem repeat regions and th...
Additional file 3: Figure S2. Amino acid polymorphism within 40 PkTRAP sequences from Malaysia and t...
Additional file 5. Nucleotide polymorphism and dimorphism within 7 full-length PkMSP1P sequences fro...
Additional file 3. Schematic diagram of Plasmodium knowlesi MSP1 protein domains. Each box in the sc...
Additional file 5. Graphical representation of nucleotide diversity of PkMSP1 at the 33Â kDa and 19Â...
Additional file 2. Accession number of PkMSP1 sequences used in the study and their geographical ori...
Additional file 4. Amino acid alignment of PkMSP1 (A) Domain I, (B) Domain III, (C) Domain V and (D)...
Additional file 1: Table S1. Accession number of PkTRAP sequences used in the study and their geogra...
Figure S1. Nucleotide variants of 38 haplotypes of P. knowlesi MSP1-42. Identical nucleotides are ma...
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