Array 1 77739-76402 **** Predicted by CRISPRDetect 2.4 *** >NZ_LVJT01000112.1 Rhodanobacter sp. FW510-T8 contig98, whole genome shotgun sequence Array_Orientation: Reverse Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ==================================== ======================================= ================== 77738 36 100.0 36 .................................... CGAGAACGTATCGCCTGGGTGAGTATAGATCGGATG 77666 36 100.0 35 .................................... ACAGGTATAGTGGGTACGCCAAATACACCAGGAAA 77595 36 100.0 36 .................................... CGATGAGCTGATGGCGAAGGTCGATCCCGACACGCT 77523 36 100.0 35 .................................... CGTACAATGCGGGCAGGACGCGTTTCTGGATCGCT 77452 36 100.0 35 .................................... ACACCCGTGAAGGTATTACGGTAAAGCCCAACAAT 77381 36 100.0 35 .................................... TTAAAGTGATTTACAACAGAGAGGTGTGGAACATG 77310 36 100.0 36 .................................... CGAAGGCCCACGAGAAGCCGTTGCCGATTGCCAGCC 77238 36 100.0 35 .................................... GCGACGTCTGGACGGTGGCCACCAAACCGTACTCG 77167 36 100.0 35 .................................... GCACGGTTCACGCCCAGCAAGAAAAGCAGACAGTC 77096 36 100.0 35 .................................... GTCAACGCCGTGAGGCCGAGGACCGCGCACGGCAG 77025 36 100.0 37 .................................... CAACCAGTGGCTGGCGGGCAAGTACCAGGGCGACAAC 76952 36 100.0 36 .................................... GCGGCCAGCGCGCGCGTGCCGCCTCGGCATGGCGCG 76880 36 100.0 37 .................................... CGGCAGGGCAAAAGAAAGGGCGACCGAAGCCGCCAGT 76807 36 100.0 38 .................................... TCCCCTCCGCCTGCCAAGACCCCCAAGCGCGGGCTGAT 76733 36 100.0 39 .................................... CGCCGATGGCGTTGTCTGCTGTCGTGTCGACCACTTTCC 76658 36 100.0 37 .................................... GGCAGGAGTTCCTTGGTGCTAAAACGTATGACGTGCT 76585 36 100.0 37 .................................... GCGCGTAGCAGATGGCTGGCCGGCGATTCTGCCGACG 76512 36 100.0 39 .................................... AGCCTTGCTCACCCGAGCAACTTCAGCCAGCGCGTTCGG 76437 36 100.0 0 .................................... | ========== ====== ====== ====== ==================================== ======================================= ================== 19 36 100.0 36 GCTTCAATGAGGCCGCAGCGAATCGCTGCGGATCAC # Left flank : | # Right flank : CGCCATGCCGTAAGTCCTTGTGCGGTCTGGCTGTTCGTCGGGTTTGTGCGAGGGGTGTCCCGCACAAGCGCAAGGCAGGCTAGCGCGCGTGATGCTTGATGGCAACAGCGGCGGGTAAGTATTGGATTTTCAATGAGCGTTGTGATGCGAGAGGTGGCCCGGTTTTGTGGCATCACCGGAGCGCTCGCGTGGGGTGGGCGAAAGAAGGTGGGCGGTGGCGGGTGGCCGTCACACGATGATCGGCTCGCGGGCCACTGGTTCGAATTTGTCACCGAGACTGACGACACGGGGTTTGACCTTGTCGGCGGGGCCGAGATCGATGATCAGCAGGGCATCGGTGCGGCGCAGGATGATGCCGTCGAGAAGTTGCAGCATCTCGGCGTGTCGTCGGCGGCTCAGTCGGCACTGGAATACGGAAAGTTGCAGCCATTCGCCGAAACCCTTCATGGTCTTGAATACGCGGCGCAGGCGCTTGTCGTCGCGAATGTCGTAGGTCACCA # Questionable array : NO Score: 3.26 # Score Detail : 1:0, 2:0, 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 : GCTTCAATGAGGCCGCAGCGAATCGCTGCGGATCAC # 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: R [6,8] Score: 0.37/0.37 # Reference repeat match prediction: NA # Secondary Structural analysis prediction: R [-14.20,-14.80] Score: 0.37/0.37 # Array degeneracy analysis prediction: NA [0-0] Score: 0/0.41 # AT richness analysis in flanks prediction: F [36.7-0.0]%AT Score: 0.27/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: R [0.27,0.74 Confidence: MEDIUM] # Array family : NA // Array 1 32-573 **** Predicted by CRISPRDetect 2.4 *** >NZ_LVJT01000027.1 Rhodanobacter sp. FW510-T8 contig20, whole genome shotgun sequence Array_Orientation: Forward Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ==================================== ===================================== ================== 32 36 100.0 36 .................................... GTTTCTAACGCTCCTACCGACGCCTACGGTTTAATT 104 36 100.0 37 .................................... AGAGTGCGAGGTACTGGATAGCATCCGCCATATGCGA 177 36 100.0 37 .................................... GCCCGTATGCGGCGGAGAAGGCCGCGGCCGCGAAACT 250 36 100.0 36 .................................... GCAATAGATAGCGGGAAGTCTAGGCGCGCACACCTA 322 36 100.0 35 .................................... TTGAAAATATCCGGGAAGAATTGACAGATCACGAG 393 36 100.0 37 .................................... CCAATATTCTGTCACAGATCGTCTTTACCGATTTGCA 466 36 100.0 36 .................................... CGGCAAAGATGGGTTAGGAAACCCAGCAAAATTATA 538 36 100.0 0 .................................... | ========== ====== ====== ====== ==================================== ===================================== ================== 8 36 100.0 36 GCTTCAATGAGGCCGCAGCGAATCGCTGCGGATCAC # Left flank : CGTTTCGCTTGAGTGCCACTGGTACACCTACG # Right flank : CGAGAACGTATCGCCTGGGTGAGTATAGATC # Questionable array : NO Score: 3.26 # Score Detail : 1:0, 2:0, 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 : GCTTCAATGAGGCCGCAGCGAATCGCTGCGGATCAC # 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 [8,6] Score: 0.37/0.37 # Reference repeat match prediction: NA # Secondary Structural analysis prediction: F [-14.80,-14.20] Score: 0.37/0.37 # Array degeneracy analysis prediction: NA [0-0] Score: 0/0.41 # AT richness analysis in flanks prediction: NA [23.3-25.0]%AT Score: 0/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: F [0.74,0 Confidence: HIGH] # Array family : NA // Array 1 7976-1 **** Predicted by CRISPRDetect 2.4 *** >NZ_LVJT01000072.1 Rhodanobacter sp. FW510-T8 contig61, whole genome shotgun sequence Array_Orientation: Reverse Position Repeat %id Spacer Repeat_Sequence Spacer_Sequence Insertion/Deletion ========== ====== ====== ====== ==================================== ====================================== ================== 7975 35 75.0 36 ..C.T..C............GT.-.T..T..C.... CGTGTGCTCCGTGGCGGCGACCAGCGCCGTCACGGA 7904 36 100.0 37 .................................... GGAGGACAATCAAGCTATCCCGACGCTTATTACAACA 7831 36 100.0 38 .................................... ACCAAGCAGATCGATGAGCACCGTCACCCGATGTTCGA 7757 36 100.0 37 .................................... GCGCGCCATCGGCGGGGTTGCCTGCGGCGTAAGCCAC 7684 36 100.0 36 .................................... TCAGTGGGTGTAGGTAGATCCTGCGCGATATCCGGC 7612 36 100.0 36 .................................... AGGCCCCTCCTATCTCAGCCAGCTCAAATCCGGAAA 7540 36 100.0 36 .................................... GTTCTTGGGGTTGATGCGGATCCATTCCCCGGTGAT 7468 36 100.0 37 .................................... TTGCCGAGCAGGGCCGCATCGGCGCCGATGTGATGCA 7395 36 100.0 36 .................................... CTACAACGAGCGCACGCCGCTGGCCGCGCGCTCGCT 7323 36 100.0 37 .................................... CGGCGGCGGCGTGGCTACTCCATGCGCCATCCTTCGC 7250 36 100.0 37 .................................... CGTCCTGCAGCGGAACAGTCTAGGCATTGAGATACAT 7177 36 100.0 38 .................................... CGCAGCGGCGAAATGGTCCGCGTGACGATTCCGCGTAT 7103 36 100.0 35 .................................... GCCAGAAGCATCCGTAGTCCAGCCACAATACCAAG 7032 36 100.0 35 .................................... CAAACACAGGTTATGGCCGGCGAGTGCTACGTGAA 6961 36 100.0 38 .................................... ACCATCGGCGGCGCGTTTCTCGGGTTCAAGTACCTGAA 6887 36 100.0 36 .................................... ACCCGCCATCTGAATCTTTTGCTGCCACTCACCGCG 6815 36 100.0 36 .................................... GACCGGGTAGCTGGCGTCTGGATACGGACCAACGAC 6743 36 100.0 37 .................................... CGAGCGTGACCAGGATGTCCTGCAGTACCAGGGCCAG 6670 36 97.2 36 ..............................A..... CACGTTGTCAAGTCTTGTCAAGCGTCGGAAACACTG 6598 36 100.0 36 .................................... GTGTTCCAACTACTTCCGTCGTCGCACCCCATGAGA 6526 36 100.0 37 .................................... CCTTATCGCCATGCACCGGGCAATCCACCGAGTACCA 6453 36 100.0 36 .................................... GTCCGGGGCCACGGCGGAGCTGCTACAGGCAGCCGA 6381 36 100.0 36 .................................... GTACGTGCGCAGCATCGACTGCCGCACCGCCAGCGG 6309 36 100.0 36 .................................... TGAAATGGTATTGTCCGTATGCAATAGCTGCAGGAT 6237 36 100.0 37 .................................... CGGAGCCGTTGGCCCTGGGGTTTATCACTAATGCAAC 6164 36 100.0 36 .................................... CGACCTCTTCGCAGAGATCGCCGCAACGGGTAAGCT 6092 36 100.0 35 .................................... GTCTCCACCACCACCACCACGTGGGGCTATGCGGT 6021 36 100.0 35 .................................... GTCGACCCGGCGGCGAAAGCCGCCGGCAAGATCGA 5950 36 100.0 36 .................................... CAAGCCACCGTGACCGCACATGCGCGCACCCTTCGG 5878 36 100.0 36 .................................... TACACCTACGAAAACATCAAGCGCAGCGGCCTCAGT 5806 36 100.0 37 .................................... GATGGCACATGGGTGAACGAATGGTCGGTGGCCGGGC 5733 36 100.0 36 .................................... ATCGTTGGCCGGATGCCAAGCGGCAAGCATGGTGCC 5661 36 100.0 35 .................................... ATTACGGGCGCGGATACGACGACACAGGCAACCGC 5590 36 100.0 36 .................................... GCAAGCTCGGAAAGTGAGTTCATCGCGCGATCCAGG 5518 36 100.0 37 .................................... GTTCGCCAGCGGAAAACGCCAAGATTCACGACCACTC 5445 36 100.0 36 .................................... GATCAGAGCGTAGATTTTCCGGTGGCCAGCGTCTGC 5373 36 100.0 36 .................................... CCGCCGTTTCAGCGGAGGCATACAGCCCGGTGCGGG 5301 36 100.0 36 .................................... CAGCAGACCAGCATCAATTCGTTCGTGCCCCGCATG 5229 36 100.0 35 .................................... CTCAGTCGATGGCCGCGTACAGCGAATCAGCACCA 5158 36 100.0 36 .................................... GGTTGTGGCCTGCAGGTAGCCGGTGGCGATGCCGGC 5086 36 100.0 37 .................................... AACAACGGATTGTTTACTCTCTCGACAATGGCCTCAT 5013 36 100.0 37 .................................... CGGCGTGATGGACCGCGCCATCGGTGCGATGCGAGGT 4940 36 100.0 37 .................................... GTGAATGTGCTGGCACCAGTTGTCAACGATTGCTTGA 4867 36 100.0 37 .................................... GGCCGGCTTTCGTTGTGTGTGCGTCGCCGTAGTTGCT 4794 36 100.0 36 .................................... GCAAACGCGGCCTTCGCGCCGATTGTCGCGGGTACA 4722 36 100.0 37 .................................... CGCCGATCAGCAGCAGGGCCGCGATGGCGATGAAGGT 4649 36 100.0 36 .................................... CGCCGGCCCGGTCGTCAACCCCGGAGCATTGCTGTG 4577 36 100.0 35 .................................... ATCTGATCCGCAGCACGATCGAGCAGGCCGTACAG 4506 36 100.0 37 .................................... CGCAACGTCAGGAGCGATCATCGTCGGAGCGATCGCA 4433 36 100.0 36 .................................... CGAGATGTGTGAGTGGGATCCGCTCGACAAGTCGGC 4361 36 100.0 36 .................................... CACATGAGCGTGGCGCGCTATCTACGTGAGCACTAC 4289 36 100.0 36 .................................... CGTCGCCGTCTGCGCAGCCGCCACCATGCCGGTGCG 4217 36 100.0 36 .................................... CGCATGGGCTCGTGTGGTCGGCGCCACGGGTGCCGA 4145 36 100.0 36 .................................... GACGTGACAGAGTGGGGCACCGGATGGGGCAGGGTG 4073 36 100.0 37 .................................... CGCGCAGCAATGACGAGCGCCGGGCGCAATGGGCCGC 4000 36 100.0 37 .................................... ACCCGGTGGCCAAGGCCAAGCGCTACGAGGCGATCCC 3927 36 100.0 36 .................................... CCCCCTTGACGTCAAGCCCCCTCTTTCGCCACCAGC 3855 36 100.0 36 .................................... GCTGCAAGGCGCGAACGCCGAGTGGGCCGACAAGTG 3783 36 100.0 35 .................................... ACGCTGACCCTGCGGCCCTTGGCGACGCTGCGAGT 3712 36 100.0 35 .................................... GTCGTGTGGCTGCTCGCCGAGATAAACGCGGATCG 3641 36 100.0 36 .................................... CCCATGCTCACGCCGTCACCTGCTTGGCGATGTTCG 3569 36 100.0 37 .................................... CGCACCGACCTCGATCGTGCTGCGTGTCTTGTCCGGC 3496 36 100.0 37 .................................... CGCCCTCACTGAAGTACGGCGCGGCGTTGGCGTACTT 3423 36 100.0 35 .................................... AGACCTGCAACCTTGATGGCCTTGCTGGCGTCATC 3352 36 100.0 36 .................................... TACCCGGCTAACCCGAGGACATTCCCATGATCGACG 3280 36 100.0 36 .................................... AGATCATCGTGCACGGGATCAAGCCCAGTTCCTCAC 3208 36 100.0 35 .................................... CGCGTGGCTAAGTCGATGGACGACCGCGACCTGCT 3137 36 100.0 36 .................................... GAGATAGCAGAAGACTTGCGACGCTGCGCGACTGGA 3065 36 100.0 36 .................................... GCAACGGCTTGTGATCGTCGGACGCAATGGAACGGG 2993 36 100.0 35 .................................... GATGTACGCGGGGTTTGCTGGGGGCGTTGGCGTCA 2922 36 100.0 35 .................................... TTGCCAAGCTGACCACGCGCGGTAATATAGACTAG 2851 36 100.0 36 .................................... CTTGTTCATCACGTTGTTGCCGACGTAAGCGCCCTT 2779 36 100.0 36 .................................... ATCAAGCCCTCCAGGAGCTTCGGCAGGAAAAGCTTA 2707 36 100.0 36 .................................... GGCGACATTGCCGCGATGCTCAAGATCGGACCAGTC 2635 36 100.0 35 .................................... GAGTTGTTGCTGCGAAAGAACCGAGAGGGCGAGCA 2564 36 100.0 37 .................................... CGCTGACGCTGACGCCGGCAAGCGCCGCGGTAACCTA 2491 36 100.0 37 .................................... CGCGGCGTCTTCTTCGGTTACGCAACCGACACGTCTG 2418 36 100.0 36 .................................... GGGTACCAGCCGCGAGGCGGCGCACGCCACCGACAG 2346 36 100.0 35 .................................... GGCGTATGACTGACCGCCGCGCCATCGGAATAACT 2275 36 100.0 36 .................................... GGCCATGAACATCATTGACCGCGTCATTGAATGCCT 2203 36 100.0 38 .................................... TTACACCGTCATGGCAAGAAAAACTCATTGGTGCCGCT 2129 36 100.0 35 .................................... ATTTGAAAATAACTACTGCCGCTACCATTCACATT 2058 36 100.0 36 .................................... GGCGTTTTGGTAACGGCGCCGAGCGCGAGATGCACA 1986 36 100.0 37 .................................... GCCTAACCCCCACTGATATTTTCCCCCTCAATTATCC 1913 36 100.0 38 .................................... GTGTCGATGATCATCGCCTACGCGATGGTGCCGTCGCC 1839 36 100.0 35 .................................... GACGCTGTGATGTGCGGCGTCGCTCGGCAAACTTG 1768 36 100.0 37 .................................... CCATGGGCAAGGCGCTGGAGAAGAACGTGGCCGCACG 1695 36 100.0 37 .................................... GCCTCTGAGGTAACACCATGACCCCCGACACGTACAG 1622 36 100.0 37 .................................... GCGTTGCAATTCGCCGTCGTGTGATTGCAGCCGGGAT 1549 36 100.0 37 .................................... CACAGCCAGCAGAGCGGGGCGCCAACGAATCGAAAAC 1476 36 100.0 36 .................................... GTACGCGAAGAAGTCGGAGGAACAGGGCGACAAGAT 1404 36 100.0 37 .................................... GACCGCGCAGGTCAACGCGAATCGTTGTCGCCAGCAA 1331 36 100.0 36 .................................... CGACCTCTCGCAGTATGTGGTGGTACGGGATACGGC 1259 36 100.0 36 .................................... ATGCACGAAAAGGAGATTCAGGCCACCCAGGCGTTC 1187 36 100.0 36 .................................... AAAATTGCGGCTGTCAATCTAACGTATGCGGTACGC 1115 36 100.0 36 .................................... CTGCCGCGATCGCGGGCAGCGCGATGCCGATGCCGG 1043 36 100.0 36 .................................... CAGGGGCCGGGCGCCAGACCACGTGCCGACGGGATT 971 36 100.0 36 .................................... CACGGCTGGAACGACGGTCACCTACTACCTGTATTT 899 36 100.0 36 .................................... ACCGGAAAGGACATCGAGGAACTGGAAAAAAACTCC 827 36 100.0 36 .................................... CAGCTGCTCGCCGCTGGGTGCGTTCTGGCCGGTCTT 755 36 100.0 35 .................................... CGATACTGCCGCGACGTGCTGCAGCGCCACCCCAC 684 36 100.0 37 .................................... CGGGTGTGGGCTACGAGCAGGCATATCAGCGAGCGCT 611 36 100.0 36 .................................... ATCGTTCGACCCGCTGCTGTCGCTTACCGGCACGCA 539 36 100.0 37 .................................... CGCCAACGATGACCACGATGCCGCAAACCACCCAGTC 466 36 100.0 35 .................................... GAGGTGGTGCCGCCCGTGCGCTCCTCGTTCTCGTC 395 36 100.0 37 .................................... GACGGTCACGGTCGAGCGCGTGAATGGTGCTGAGCGT 322 36 100.0 36 .................................... CGAAGGAAACATGCATTCTGCGCGACAAGGTGAAGC 250 36 100.0 35 .................................... TGGGCATTGTGCTGGGCGCTATTTCAGGGCAGCTT 179 36 100.0 36 .................................... TCAGGAGCATCTGGCGGCTCCAGTCGACATCGACGG 107 36 100.0 35 .................................... CTCGCGTTTCGCTTGAGTGCCACTGGTACACCTAC 36 36 100.0 0 .................................... | ========== ====== ====== ====== ==================================== ====================================== ================== 111 36 99.7 36 GCTTCAATGAGGCCGCAGCGAATCGCTGCGGATCAC # Left flank : GGCCGCCGGCGTGGGTGCGCTGATGGCGCTGTGGATCACCGGCACCGAACTTTCGGTGGTGGCGCAGATCGCGCTGGTACTCTTGATCGGCATCGTCAAGAAGAACGCGATCATGATGATCGACTTCGCCCTGGTCGCCGAGCGCGAACACGGCAAGCCGCCACTGGAAGCGGCGCGCGAAGCGTGCATCGTGCGCTTCCGCCCGATCATGATGACCACCATGGTCGCCATCCTCGCCGCCCTGCCGATCGCCATCGGCCTCGGCGAAGGCAGCGAACTGCGCCGCCCCCTCGGCATCGCCCTGATCGGCGGCCTGCTCATCTCGCAAAGCCTCACCCTGCTCAGTACGCCGGCGCTGTACGTGATCTTCTCGTGCCTCGCCGAGCGGCGCAGGGCGTGGTGGGCGCGGCGGCAAGGGCGCAAGGTGGTACGGCGGCAGCTGGCGGGGATGTAAGAGGATCACTACATCACGTGGCCGCAGCGGGCCCACATGTCGCCGT # Right flank : C # Questionable array : NO Score: 3.25 # Score Detail : 1:0, 2:0, 3:0, 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 : GCTTCAATGAGGCCGCAGCGAATCGCTGCGGATCAC # 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: R [6,8] Score: 0.37/0.37 # Reference repeat match prediction: NA # Secondary Structural analysis prediction: R [-14.20,-14.80] Score: 0.37/0.37 # Array degeneracy analysis prediction: F [0-10] Score: 0.41/0.41 # AT richness analysis in flanks prediction: NA [0.0-0.0]%AT Score: 0/0.27 # Longer leader analysis prediction: NA # ---------------------------------------------------------------------------- # Final direction: R [0.41,0.74 Confidence: LOW] # Array family : NA //