Array 1 50036-50875 **** Predicted by CRISPRDetect 2.4 *** >NZ_CABMMN010000024.1 Adlercreutzia equolifaciens isolate MGYG-HGUT-02480, whole genome shotgun sequence Array_Orientation: Forward Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ================================= ===================================== ================== 50036 33 100.0 35 ................................. AACTCGGTCCAGTGCGCCACCGTGTCCCTGGAGCA 50104 33 100.0 33 ................................. GAGGCGTGACCCTCCACAATAGGGCGGCGAACG 50170 33 100.0 36 ................................. GACAAGACGAGGGGCGAGAGGAAGAACGGGCTGCTT 50239 33 100.0 32 ................................. GGGGCAATCGCGCGAAAAACCCTAGGGGCCTC 50304 33 100.0 33 ................................. CAGAGGCCGCGAGAATCGAGACCGAGGACAACT 50370 33 100.0 35 ................................. AGGGCTACCGAGTGCCGATCTACGACGAGGTGGCC 50438 33 100.0 33 ................................. GGATTGCATACCGCGATCAACGGCATCGGTGCT 50504 33 100.0 37 ................................. GACAACTCTGCGGTGATCTCAAAGTTGGACGGCATCG 50574 33 100.0 35 ................................. GACTCGTTGACGGCCTCCTTCCGGGCCTCGACAAG 50642 33 100.0 34 ................................. GCAGACGCCCTCTCGAAATCGTCCATGGGGAGGC 50709 33 100.0 33 ................................. ATCGCCTACTACGAGTCGAACGGATGGATGGTG 50775 33 100.0 35 ................................. ACCCGAAGCTGTAGCGCCACCGTTTCAGCCGGGGC 50843 33 100.0 0 ................................. | ========== ====== ====== ====== ================================= ===================================== ================== 13 33 100.0 34 GTCGCTCCCCGCAAGGGGAGCGTGGGTTGAAAC # Left flank : ATGGTTACCCTGCATTTTTGTGGAAGTGAAAGCAATGTTGACGGTAATAACTTATGACGTAAACACAGAGGATCCAGCAGGAAGAAGAAGGCTGCGGAAAGTTGCTCGGCATTGCGTGAACTACGGGCAGCGTGTGCAGAACTCGGTGTTCGAGTGCGTTGCCGATGCAGCCACCATGGCGAAAATAAAGAGCGAGCTAACGAAGTTGATTGATCCGGAGAAGGACAGCCTGCGATTCTATTATCTGGGAAATAATTACGGATCGAAGATAGAGCATGTTGGTGCGAAGGAGTCCTACGATGCCGAGGGATTCTTGGCACTTTAGGAATAAGCGGTCGGAATAATGGGTGGTGCGAACTGGGGGCTATCAGGGATTCCCTGGGAAGTTCGCACCGCTTTTTGGTTTGTTTCGGAGGGGCGAAGTTCGTCGGAGGAAGCGTTTGGGTGAAATACATCGTGCATATGGTATGCTCGCAGAGCTACATTAACAAGATGTAGCG # Right flank : CCACCAGAGGCGGTGTTAGCGCTACCGTAATAATCGCCGATTGGGCCCCCGCTTCCCGCCAATCGCGCCACCGCACAGGCGCCGATCGCGCTACCGGACTTTGGCCGGCGGCGCCCCCGGCGCCGCAAGGTGTAGGCTCCCGACGTCTCCGGACGGAAGGAGCCCCGATTGGAAAGGAACATCATGGGAGAGTTCGACATGTACAGGCAGGCGGGCACCAAGCCCAACTTCACCGACATCGCCCGGCGCTACGGCATGCACCGGCACACGGTGGCCAAGTACTGGAAGGCCGGCGGCCAGGTGGAGGACGCCCGCAGGTGCCGGCCGAGCGGGCTGGACCGCCACAGGGAGGTCATAGAGGCCAAGGCGCAGCTGCCCGGCGCGACCAAGCGCGGCATCTACGAGTACCTGCTCGACCGCTGCTACGCCGGCGAGGAGCCGCCGGCCTACAACACGCTCACCAAGTGGATGCGCCGCAACGGCATCGAGTGCGGGCGCCC # Questionable array : NO Score: 6.26 # Score Detail : 1:0, 2:3, 3:0, 4:1.00, 5:0, 6:0.25, 7:0.01, 8:1, 9:1, # Score Legend : 1: cas, 2: likely_repeat, 3: motif_match, 4: overall_repeat_identity, 5: one_repeat_cluster, 6: exp_repeat_length, 7: exp_spacer_length, 8: spacer_identity, 9: log(total repeats) - log(total mutated repeats), # Primary repeat : GTCGCTCCCCGCAAGGGGAGCGTGGGTTGAAAC # Alternate repeat : NA # Directional analysis summary from each method: # Motif ATTGAAA(N) match prediction: NA Score: 0/4.5 # A,T distribution in repeat prediction: F [6,5] Score: 0.37/0.37 # Reference repeat match prediction: NA # Secondary Structural analysis prediction: NA [-9.30,-9.10] Score: 0/0.37 # Array degeneracy analysis prediction: NA [0-0] Score: 0/0.41 # AT richness analysis in flanks prediction: F [56.7-36.7]%AT Score: 0.27/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: F [0.64,0 Confidence: HIGH] # Array family : NA // Array 1 155-6159 **** Predicted by CRISPRDetect 2.4 *** >NZ_CABMMN010000005.1 Adlercreutzia equolifaciens isolate MGYG-HGUT-02480, whole genome shotgun sequence Array_Orientation: Forward Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ================================= =============================================================================== ================== 155 33 100.0 32 ................................. TCGAAGAAGTCGTCGATGGCACCGAAGAGGAG 220 33 100.0 34 ................................. GTCAAGCGCATGGACCATCAGGCACGGAGACCCC 287 33 100.0 33 ................................. AGGGAAGTGGCGCCAGGCTGATCTGGAACGGCA 353 33 100.0 34 ................................. TCGGCAAACATCGGGGCAACCGCCGTTGGGTTGG 420 33 100.0 34 ................................. ACCGCAGAGGCGAAGGAGAGATGCCCGAAGTGCG 487 33 100.0 36 ................................. TAGGAGGAAATCATGATCGACTGCGGAAAGCCGCCG 556 33 100.0 33 ................................. CCGGCTGCGAGATCGCGGAGCGAACGGCCTTGA 622 33 100.0 36 ................................. GTGTCGCGGTACGAGAGCGCCGACAGGATGGGTCGG 691 33 100.0 33 ................................. CCGAAAAAGTGTTGACCATAGTATAATGTCATG 757 33 100.0 36 ................................. GAGGACGACATAGCCGGAGACGCGGAGTCCGTGATC 826 33 100.0 35 ................................. GCGAACCCGCAGCACGTCTCCCGCAACTGGAGGAA 894 33 100.0 35 ................................. ACGAGCGGCATGATCTGGGACGGCGATAAGCAGGT 962 33 100.0 33 ................................. GGGAGAGCACGCTGAAGAAGCTGTGCAAGTCGC 1028 33 100.0 33 ................................. GGGAGAGCACGCTGAAGAAGCTGTGCAAGTCGC 1094 33 100.0 37 ................................. ACCGGTGGCTTTGTTAAGCGCCACGCCCCCGAGGCGC 1164 33 100.0 35 ................................. AGGACGCTTCACGCGATGGCCGGCACCTACGAGAC 1232 33 100.0 34 ................................. AAGGAGGACGAGGGGCACATCGTAGCCACGCTGG 1299 33 100.0 33 ................................. AAGGAGGTCACCATCTACGCCCGCGAGGACGAT 1365 33 100.0 36 ................................. CTTAGCGGAATCATAGCATTACTTAGAATCAAAAAC 1434 33 100.0 35 ................................. ACGGACTCGTCGCACATCTCGCAGCAGATGTCCTC 1502 33 100.0 36 ................................. CTGTGGCACACCGAGCGCCACGACCTGTGCCGACCG 1571 33 100.0 36 ................................. AGATGTAGACGACGGGCCGCCCCCGCGGGCGGCCCC 1640 33 100.0 34 ................................. CGCACAGGTCGCGAAGCTCAGCCAGGAAGCCCAA 1707 33 100.0 34 ................................. CCCGGCGAGCGCGTCAAGCGTCGCGCCCCCGAGG 1774 33 100.0 33 ................................. GAGGAGGCGCGCAGAGAGCTGCGTCACTGGTAC 1840 33 100.0 36 ................................. GCGACCTGTGCGGAAAGTACGGCTACGAGATCGGCG 1909 33 100.0 34 ................................. ATGCCCTGATACGGAGGAAACCCCATGAGCGAAG 1976 33 100.0 33 ................................. GTAGAGGCCGAGCATAACCTGGAGGTCGTAGGC 2042 33 100.0 33 ................................. TGGGTGCCGTCCCGCTTATCAACGATGCGCGTG 2108 33 100.0 36 ................................. CCGACCAGGTTTGGCCCGACAGCGTTCAGTGGAACA 2177 33 100.0 36 ................................. CCGGCCTCGATAGACAGCCGATCGGAGATGCCGTCC 2246 33 100.0 36 ................................. TGTGCTATCTAGGGCTTTAGATCGGCTCTCCCGGGC 2315 33 100.0 33 ................................. GGAGTATTCGGCGCTCTTCGATTGGTGCGCCGT 2381 33 100.0 32 ................................. TAACCGTCCTGGGTCAGATTGTGGCCCGTGAT 2446 33 97.0 33 A................................ CCTCTTTGGTCAATGTCGTTCTTTTCGGCTCTG 2512 33 100.0 34 ................................. TCTCTCCGGCTGGGTCTATACCCTCGTGACGGAG 2579 33 100.0 34 ................................. AAGTTCCTCAACGACCAACGCTACTTCAAGGTGA 2646 33 100.0 35 ................................. TGCCACTCCACGGGATACGACGGTAGGATCGTCTG 2714 33 100.0 35 ................................. GACAACGCGGCGACTTGCGCTGCCCAGTCCACCAT 2782 33 100.0 33 ................................. ATCGGCGGCGGCAAGGAGGCCGCGAGAGCCAGA 2848 33 100.0 33 ................................. CCCCCGTCATCAATGAACATGTTTGCCGTTGCC 2914 33 100.0 35 ................................. AGAAACACCTGCAGCGATAGCCGACCTGAACGAAC 2982 33 100.0 35 ................................. TGGCGAGTGTGCCAATTCGGGACAGCGAATGCCGA 3050 33 100.0 33 ................................. CCTACGTGGCGGGCATCGGCGCCGGCATCGCCG 3116 33 100.0 33 ................................. TATTCGAGCCCCAGACAACAGACCCGACAGGCA 3182 33 100.0 34 ................................. CACGCGCCGCCCGCCCCGATCCTCTCGGCCAGCT 3249 33 100.0 35 ................................. AAGCCTCACGTCCGGCCTAACGAAATCGTGCGGAT 3317 33 100.0 79 ................................. CGGATGGGTCGTACATCTGGGAGCTGATGGGAGCGTGGGTTGAAACCCGCACTCGATCAGGGCCTCGTTGATGCGGCGC 3429 33 100.0 33 ................................. CCAGGAAGTCCAAGGCAGCCTACGCGCCTCTCC 3495 33 100.0 36 ................................. TGCGATGTCGCCGCCATGTCATGCCCCCAGCAGCGC 3564 33 100.0 35 ................................. TGGGTCGCCTACCATCGCGGATGGGACACGGTGCC 3632 33 100.0 36 ................................. AAGTTGCTCGATGAGACCGCTGGGAGAGAAGGCGGT 3701 33 100.0 35 ................................. CGTACCGCTCGAGGATCTCGAACTCGCACAGCCCG 3769 33 100.0 33 ................................. ATCCAGTCCCACAGCCACAGGGCCTCCTTCTCG 3835 33 100.0 33 ................................. CATGCGACACTCGCGTACGGGCTCGTACTCGAG 3901 33 100.0 36 ................................. TCATGGGAAGGGACGCCACCCCGGCAGCCGGAGGGC 3970 33 100.0 34 ................................. CCGCGCCCGCACAGGTGCACCACGGGGCCTGACG 4037 33 100.0 33 ................................. GAGATCAGGCTGCGACGGTGCTATCTGCCCCTC 4103 33 100.0 37 ................................. TCGCGGCAGATGCGGTACAGCTCGTCCACCCTCTGGC 4173 33 100.0 33 ................................. CACACGTCGATGTCGCGCACGTGCGCCGGCTCC 4239 33 100.0 33 ................................. AAGGTCGTGATGAATCGCGCCGAGGCCCTTGAG 4305 33 100.0 33 ................................. ACGTCCGTCCACACGTCCGGCGCCCACGAGGAC 4371 33 100.0 34 ................................. TGCGGGCGCCCGTGGACGGAGCGTCACCACATCG 4438 33 100.0 36 ................................. ACGGGCGCCGGCATCCCACTGGGCATCGGGTGCATC 4507 33 100.0 33 ................................. TAGTTGTGGACGAGGCGCAGCTTGTTTTCAACT 4573 33 100.0 35 ................................. TGCGAGAAGGAGCGTTTCTAATGGCCGTTAAGAAG 4641 33 100.0 35 ................................. GCAAGGAACAATGAGGGAGTGTCGCCCAACTTCAT 4709 33 100.0 35 ................................. TTGTCCGACGAGGCCGCAACGCTGTAGCTCGTCTG 4777 33 100.0 33 ................................. ACGATGGCCATGGAGTTCGCGGCTCTCGACTTG 4843 33 100.0 35 ................................. CCCGACGAGCTCAAGGTGGACAGGCGCACGTTCGC 4911 33 100.0 34 ................................. GCGGATGTCGAGTCCTTCGATCCGACCGGCTTCC 4978 33 100.0 35 ................................. GACTCCAGGATGGCGCGGAACTTCTTGCTGGTGGC 5046 33 100.0 35 ................................. ACTGCGGGTGCGGGCTTCGATGCCGGCTTGCTCGC 5114 33 100.0 35 ................................. TGAACAAGTCGCATAAGTCGCAGACTGCCTCGCTC 5182 33 100.0 35 ................................. TGGGCCACGTAGGTGACGACGCTCTCGCCGTGCTC 5250 33 100.0 37 ................................. AGAAGGGGGACGGTTGGGCGGCTGACGTGATGGGCAT 5320 33 100.0 33 ................................. GCGCAGATCTCGGAATAGCTCAACCCTTGGTAC 5386 33 97.0 34 ...............................G. TGGCTGTGGCTGTCCACCTGGGCCGTGTTCGTGC 5453 33 100.0 36 ................................. ACCGAGGACGTGCGCATGGCCATCTACGAGTGCGCC 5522 33 100.0 36 ................................. GAGCCCGTCGAGTTCGGCAAGCTACTCGCCGAGGAT 5591 33 100.0 33 ................................. ACGGCAAGTATGCGCACTCCGAACTCGTCTGCC 5657 33 100.0 35 ................................. CCGCATCCGCAAGATTTCGTTTGTCCGGACGTGAG 5725 33 97.0 33 ....T............................ TCGCTCGACCAGGCGGCGCTCGTGGCCGCGAAC 5791 33 97.0 33 ...............................G. CTGGACATCAAGAAGGTGCGCAACGTGGAGAAG G [5817] 5858 33 97.0 34 ...........................A..... TTGGCCTGTGACAGGTAGCTTGCGTGGAGAACGC 5925 33 97.0 37 ............C.................... GACACCTACGGCTACGACGACGTGCTGCCGCTGTACC 5995 33 100.0 33 ................................. CAGCCGAGGCAGCGCACGTAGAACTCGTCGGGG 6061 33 97.0 33 ......................G.......... AAGCGCCTTATCCGGGGCATGGTGGGCTGCGAG 6127 32 90.9 0 ............-.....G.............T | C [6133] ========== ====== ====== ====== ================================= =============================================================================== ================== 89 33 99.7 35 GTCGCTCCCCGCAAGGGGAGCGTGGGTTGAAAC # Left flank : CGCGCCCTGGGCGGCGGCCCGAGGTAGCGCGGGCGGCCAAAGTGCGGTAGCGCCCCCGGCCGGGAACCGGGGGCGCCGCCGGCGGGATAGAGTGGCGCGTTCGGCTGATTTTGCGGTAGCGCTAACAGGCGGTACTTGCCGTCGCCTACGCGCTG # Right flank : TGCGTTGCCGTTGCGGTTGACATTTCAGGCATTCGATATCGGTTTCGGGGGGGGGGCTTAGCCGTTTCTGGCTTGCTCGCCGCGCATAGCGGTATCCTCTTCCTGCTTGTTCTACAATGTCAGCTAAATACCTCTTTCCAGAAAGGCTTCCATGAACGACATTCAAGGCGTGCTGTTCGATGCGGATGGCACGCTGATCGACACCTACGACATCATTCTCACTTCGATGCGCTATGCCGTGAACGATGTGTTGGGCTGCTCGCTTGACGACGCCGAGCTAATGGCGGGGGTTGGCACGCCTCTCTACGATCAGATGCTGCATTTCACGGGCGGCGACGCGGCTCGCGCTACCGAGATCACGCAAATCTACCGCGACCACAATGACGGCGTCCACGATGCGCGCATTCGCGCCTTCGGCGACACGAAGGCGGCGCTCGAGCGATTCCAGGCGGCGGGTATCCCGATGGGCGTGGTCACCTCGAAGCGCCATGCCATGGCCC # Questionable array : NO Score: 6.21 # Score Detail : 1:0, 2:3, 3:0, 4:0.99, 5:0, 6:0.25, 7:-0.03, 8:1, 9:1, # Score Legend : 1: cas, 2: likely_repeat, 3: motif_match, 4: overall_repeat_identity, 5: one_repeat_cluster, 6: exp_repeat_length, 7: exp_spacer_length, 8: spacer_identity, 9: log(total repeats) - log(total mutated repeats), # Primary repeat : GTCGCTCCCCGCAAGGGGAGCGTGGGTTGAAAC # Alternate repeat : NA # Directional analysis summary from each method: # Motif ATTGAAA(N) match prediction: NA Score: 0/4.5 # A,T distribution in repeat prediction: F [6,5] Score: 0.37/0.37 # Reference repeat match prediction: NA # Secondary Structural analysis prediction: NA [-9.30,-9.10] Score: 0/0.37 # Array degeneracy analysis prediction: F [0-13] Score: 0.41/0.41 # AT richness analysis in flanks prediction: NA [36.7-43.3]%AT Score: 0/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: F [0.78,0 Confidence: HIGH] # Array family : NA //