Array 1 747-1 **** Predicted by CRISPRDetect 2.4 *** >NZ_LYMU01000066.1 Hymenobacter sp. UV11 NODE_185_length_69189_cov_11.6151, whole genome shotgun sequence Array_Orientation: Reverse Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ============================= ===================================== ================== 746 29 100.0 37 ............................. AGCAGCAAGCCCAGCGCGGCCGCGCTCAGCGCGAAGG 680 29 100.0 37 ............................. TGGTACGCATGGTGAGCTGCCGCCAGTCCTCATAGGC 614 29 100.0 36 ............................. AGGCGAATGCGCTCCACGGCCATTTTCACGCCGGCG 549 29 100.0 37 ............................. AATTTGCGGGCGGTGTAAGTGAGGTATTCTTGCCGAG 483 29 100.0 35 ............................. TTGAGCGTGATGTTGAACACGTTGGCCGTGTCGGT 419 29 100.0 35 ............................. GACGTGTCCATGGTTGGCGGCGTCGTAACGCTCAA 355 29 100.0 36 ............................. AGTCTTCGCCGTAGTCGTTGTCGCGACAGTCTTCGC 290 29 100.0 37 ............................. TAGCCTGCCGGGACCATCTGGGCCGGGCGGGCCAGCA 224 29 100.0 36 ............................. GAATAAGGGTAAGCAGGGGTAGGGCGCGCCGTTGTG 159 29 100.0 36 ............................. GATGAATGCCCCTCGGGCCTGACCGTGCGCATCAGG 94 29 100.0 36 ............................. AGCTAAAAGCCAACGCTCAGGCTCCGCAAACAGAGG 29 29 100.0 0 ............................. | ========== ====== ====== ====== ============================= ===================================== ================== 12 29 100.0 36 GCTTCAATCGGACCAGGTGGAATTGAAAT # Left flank : ATGGAAGAATACCAACCCTTTAAAGCCTGGTGGTAATGTACATTATCTTGGTATATGACATGAAACAGCAGCGCGTGAGCCGGATGTTAAAGCTGTGTCGCCGTTACCTGCACTGGATTCAAAATTCTGTTTTTGAAGGCGAAATCAGCGAGGTGAAGTTAGCTGAGTTGCTGGCCAAAGCGCGTACCATTATGGACGAGGAGGATAGCCTCATCCTCTTTAAAAGCCGCACCCAGCAGTGGCTGGAAAAGCAGGTAGTAGGCCGCGAGCGCAGTACACTGGATACCATCTTATAGGGCTGGCTCGTCGTCGGTGAAATGAATTGGGTAAGCAATAGCGGGATTTTACCTTGCTTTATCGCGTAACACATTGACTGGCAAGGTCGTCTAACCCCCACTCAAATCATACTTTGCCTCACCGACGACTTTCAGCTATTTTGCGAGAGGGCAAACAGGCTTTCCCTGCGTTGCAGAGCCTATAATTGTGATAGAATTCACGGG # Right flank : T # Questionable array : NO Score: 6.26 # Score Detail : 1:0, 2:0, 3:3, 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 : GCTTCAATCGGACCAGGTGGAATTGAAAT # Alternate repeat : NA # Directional analysis summary from each method: # Motif ATTGAAA(N) match prediction: R Score: 4.5/4.5 # A,T distribution in repeat prediction: NA [Repeat is AT rich:55.17%AT] # Reference repeat match prediction: NA # Secondary Structural analysis prediction: NA [0.00,-0.40] Score: 0/0.37 # Array degeneracy analysis prediction: NA [0-0] Score: 0/0.41 # AT richness analysis in flanks prediction: NA [0.0-0.0]%AT Score: 0/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: R [0,4.5 Confidence: HIGH] # Array family : NA // Array 1 4-5509 **** Predicted by CRISPRDetect 2.4 *** >NZ_LYMU01000065.1 Hymenobacter sp. UV11 NODE_184_length_29788_cov_11.664, whole genome shotgun sequence Array_Orientation: Forward Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ============================= ====================================== ================== 4 29 100.0 36 ............................. AGCTAAAAGCCAACGCTCAGGCTCCGCAAACAGAGG 69 29 100.0 36 ............................. GAGATGGAGCAGGTACCGAGGCTGTTCGCATTCGCC 134 29 100.0 36 ............................. TTTGGCAACGGCTACGTTATCCGGTGGCCGAACGGC 199 29 100.0 36 ............................. ATAATGCCTACTTCGGCAAGGCCAGCCTGGACTACG 264 29 100.0 37 ............................. TTGGTACCCGGCCGACTGGCGTGAGGTGGAGCTAACA 330 29 100.0 37 ............................. TTCCAGGGCCTCTACCATTGCCCGCAGCACCCGCCGG 396 29 100.0 37 ............................. TCGAAACGGGGGGTGGCATCTACATAGACCACTGGAG 462 29 100.0 35 ............................. GGTGAAGTTGCCCTCGGCTGCGAAGTAGTCGCAGA 526 29 100.0 36 ............................. ACGACTACCTACGACCCCGTGCGCGATGCCCCCCGC 591 29 100.0 36 ............................. GATGGAACAAACGCCCTCCCTCTCCCCCGGCCTCAT 656 29 100.0 37 ............................. GTCACAGCGCTGCTTAGATACGGTCTGGCTCGACAAG 722 29 100.0 35 ............................. TTGGGAGTCGAACCCAAATAGCTCACATTAAAAGT 786 29 100.0 37 ............................. GGTGTAACATACTGTCCAGGCGTCACCATCGGGCAGG 852 29 100.0 35 ............................. AAATTCGCCATTGCCACGAACGAAGTGGTGACGGG 916 29 100.0 37 ............................. ACGCAGATGGAAGTGTTGGAGCGGCGCGCCGCCACGG 982 29 100.0 36 ............................. TTTTTTCTTCCGCGGTCAAGCTGCGGTTTTCCCCTT 1047 29 100.0 37 ............................. GACGGCAAGCCCAACCCCATTGCCCGCCTGGTGATGA 1113 29 100.0 35 ............................. TGAAGTACGACGCCACGCGCTGGTCGCAGGAAGGA 1177 29 100.0 36 ............................. ATCGTAGGCAACTACAGCAAGGCGGCCAACACCAAC 1242 29 100.0 36 ............................. CGATTTAGTGCTGGCTGAGCACCGAGCCGCGCAAGA 1307 29 100.0 36 ............................. ATGTGCAGCGTGGCCCCGTGCGCTACATCACGGCCG 1372 29 100.0 36 ............................. ATCGACTTCTTGCCGCTCTCGCTATTGGTGAGCTTT 1437 29 100.0 37 ............................. ACAGCAGCCCAGCGGCCCCGTGGCCGGCGAGGGTGAG 1503 29 100.0 36 ............................. AGGCTACCAGAATACTGAGGCGGTAGCGCCCGGTGG 1568 29 100.0 36 ............................. ACCTCTGCGGCCGCCTCGCCCGTTCTGCGCATCGGC 1633 29 100.0 36 ............................. GGTACCATCCGAACCACTTACACCAGTGCCAGCATC 1698 29 100.0 36 ............................. AACCCGGAACAAATCACGTTAATCGTGGGGTCCTGC 1763 29 100.0 37 ............................. TAAGACTGCCTGCTCTAGCTGACGTTCCTGTAACGCT 1829 29 100.0 37 ............................. ACTTTATCACGCCCGCATTGGCGACGTGAATAGTAGC 1895 29 100.0 36 ............................. GTGATGATAGTTCCACCATAAGGGACAGCGTTACCA 1960 29 100.0 36 ............................. GCGCCTCTCCCGTGCGAGTCGGCACTACGGGGGGTA 2025 29 100.0 37 ............................. GTCGCTGGGGGTGGGTGGGCTACTCTGCGATGGCCTG 2091 29 100.0 36 ............................. GCCGTAGCTCGGTCTCTCTCGCGTCGAAGGTGGCTT 2156 29 100.0 37 ............................. TAAGTCTAGGTCTACCTTGCAGGAGTCGCCATCTGAA 2222 29 100.0 36 ............................. ACTCAGAGGCGCGCTTGTAGTACGCTTTGGGTAGCG 2287 29 100.0 36 ............................. TAGCCTGTCGGGACCATCTAGGCCGGGCGGGACAAC 2352 29 100.0 36 ............................. GTAGCAATTCCTCTCGCGCCTCGCGTGCCTCACAGT 2417 29 100.0 36 ............................. ACTGGCGCGGGACGAAAACCCCCATGTCGGTGCCAT 2482 29 100.0 37 ............................. GGTGCCATTCCCTCCCGCCTGCACCGCAGCCTCGTAC 2548 29 100.0 36 ............................. GCGGAATCGGGTCGCCGTAGTACTTGGCCAGGTCGA 2613 29 96.6 37 ...............T............. AGCGCGGTGGGCCTACACCGTAGCCGCGCACAAAGGA 2679 29 100.0 37 ............................. ACATTTTGGGGCTGTAATGACAGCCTGCCCGGTCAGG 2745 29 100.0 35 ............................. AGCATCTTAAGCAGCGTGGGTACGTCGGCCGCGCT 2809 29 100.0 37 ............................. GAGTTGGCCCGCATCCTGCCCGACTTCACCTTGCCTG 2875 29 100.0 35 ............................. AACACAGTAGGCAGCGGCAACATTCAGGCGACCAA 2939 29 100.0 36 ............................. GTCACTGGACATCATCAGCTTCGGCCAGGCCACGGA 3004 29 100.0 36 ............................. GGTAGCAGGGGCCGCCTTGGGCACCATGTAGTAGGC 3069 29 100.0 37 ............................. GACGTGGCCGCATTGGGCATGGAAGGCTATCGCCATC 3135 29 100.0 36 ............................. TCGTAGAGGTCCGCCAGCACGGCCAGAATCAGCGTG 3200 29 100.0 36 ............................. TCATCAAGCTGTACTCTGAGAATAACCGTCTGGTTG 3265 29 100.0 36 ............................. GCCAATGGCCGCGGCCAGCTTACCGTCGTCACCAAG 3330 29 100.0 37 ............................. TTGATAGAATCAGCGACGGCGCTACCAACCCGTGGGC 3396 29 100.0 35 ............................. AATGAAAAAGCCCACCCCCCGCGCCCCGCTAGGCC 3460 29 100.0 35 ............................. TGGCTAGCCTCGAGGGCACCAATACCCGCCGCACG 3524 29 100.0 37 ............................. TGGTAGATGCGGCGCGCGTCGTAGCGACCCAGTAGGC 3590 29 100.0 36 ............................. AGCGGCACGTAGCCGCATTCGGGTGCGTCGTCAGTG 3655 29 100.0 36 ............................. TACCCAGCCGCAGCCAGCCCGATGCCTTCGTGGGCG 3720 29 100.0 36 ............................. GGTGATGAGGCCAAGCGTCAAAGCATTGCCCTGCAC 3785 29 100.0 36 ............................. GAGGCCACCCGTAACGCAATTGGGGCCGCCTTGATT 3850 29 100.0 36 ............................. TGTGCGGTGGTGCCGAGGTTATAAATCTCCAGCCAT 3915 29 100.0 36 ............................. TACTTACCCGCTTTCTCTGCACTGCCCGCCAGCTCC 3980 29 100.0 35 ............................. ATGTCGAGCGAGGCCCAGACCGAAGACGGCCTGAA 4044 29 100.0 37 ............................. TCGCAGAAGGTAGGCAGCAGTGCCCGGCCGGGCTGGC 4110 29 100.0 37 ............................. TTTGTAGATGAAACCTTTCATGAGATTGAGTTCTACC 4176 29 100.0 37 ............................. GCGTCAAAGCCTACGCGGCCGGCAACCGCAACGCCAG 4242 29 100.0 36 ............................. AACGCCCGACGGGCTTCGAGGCTGGCCTTTTCAATG 4307 29 100.0 35 ............................. GAGGTGAGCGAACTCGTGGTGGCGCCCGACGTGCA 4371 29 100.0 36 ............................. ATTGGTGGAGGGAGCATACGACCCCGGCCTGATGCC 4436 29 100.0 36 ............................. GCCGACTTACCCAAGGCAACGGACGCTAACTGGCTT 4501 29 100.0 38 ............................. GGTTGGCAGTCCCAGTTAGGGCCTAGCACGAGGCGCCG 4568 29 100.0 37 ............................. ACGTAGTCGCCAATAAGCTAGGCACTGTGGAGGTAGT 4634 29 100.0 36 ............................. AAAAGCCAGCAAAGCCAAGTGCCTCGGTTGCCGTTA 4699 29 100.0 36 ............................. AGTGTGTCAATGAAGCCCTGCACTTGCGACTTGCGC 4764 29 100.0 36 ............................. AAGGAAGGCGCCGGCCGTAGGCTACCGGGCGAGGGC 4829 29 100.0 37 ............................. TATGAACGCCACCCCAAACCCCCTACCCCCTGAGCAG 4895 29 100.0 36 ............................. AACAGTGGGGTAACCAATACGGGGCATGCCTTTCTG 4960 29 96.6 37 ........T.................... TGACTCCACCAGCTGGGCGAGCTGCGGCTTAAAGAGT 5026 29 100.0 36 ............................. ACTTAAAGCCGGCTAAGGTGCATCTGTTCTACGCAC 5091 29 100.0 35 ............................. TTTCGAGCGTTGACAGCGACACCCTGGAGCATAGG 5155 29 100.0 36 ............................. AGCGGGTCACGCGCTGCGCGCCGCTGGCAATCGTTT 5220 29 100.0 37 ............................. CGCATTTGGCAACCAAACCCTCTTGGTGCGGGGTATT 5286 29 100.0 37 ............................. ATGCCCTATTCGGCTACTACTACCGCCTTTGGCTACC 5352 29 100.0 36 ............................. AGGGTCGCAAACAGGCGCGTGCGCTCCGCTTCGTTG 5417 29 100.0 36 ............................. TTTCTTCGTGTCGCACAGCCAGGCCAGCAGCAAGGC 5482 28 79.3 0 A..............A....G.-...CT. | ========== ====== ====== ====== ============================= ====================================== ================== 85 29 99.7 36 GCTTCAATCGGACCAGGTGGAATTGAAAT # Left flank : AGGG # Right flank : TATTGCAGTGACTTAAGTAATAAGCGTTGCACGCCCATGGGATGAAAAGCCTTCCCATGCCGGGTGTGGTACCCAGATTGATTGAGTCGGTCCGCAATCGCCCGCAACGTCGCCCCCGTGGCCCGTAACAGAACGGCTAGCTGCGCCGCCTGCCGATTACTCAGATTGACTTGCGCGTTGTGGGTCATCGCCACCCAGGATTTCTCTCGCGCGGCTTGGGTCAGATTAGCTGGAGTGCCTAACTGAGCACCCCGGGCTTTCTTGGCCGCTAATGCATCGCGGGTGCGGGTAGAAATTGCCGAAGCTTCTTTCTGAGCCACGGCCGCCATGATGTGCAAAGTAAACTCATCGGCGGCGGGTAAGTCAACCGCTTGGAAGCGCACCCGACTTTCCATCAGCGTGGCCAAGAAGGCCACATTACGCGCGAGTCGGTCCAACTTGGCCACGAGCAGCACGGCGTCTTCTTGCCGGGCCCGAGCAATAGCCGCCTGCAGTTGCGG # Questionable array : NO Score: 6.25 # Score Detail : 1:0, 2:0, 3:3, 4:0.99, 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 : GCTTCAATCGGACCAGGTGGAATTGAAAT # Alternate repeat : NA # Directional analysis summary from each method: # Motif ATTGAAA(N) match prediction: F Score: 4.5/4.5 # A,T distribution in repeat prediction: NA [Repeat is AT rich:55.17%AT] # Reference repeat match prediction: NA # Secondary Structural analysis prediction: NA [-0.40,0.00] Score: 0/0.37 # Array degeneracy analysis prediction: F [0-7] Score: 0.41/0.41 # AT richness analysis in flanks prediction: R [1.7-51.7]%AT Score: 0.27/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: F [4.91,0.27 Confidence: HIGH] # Array family : NA //