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Dicots PLAZA 5.0
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Database
PLAZA Protein Sequences
PLAZA Transcript Sequences
Acer truncatum Genome Sequence
Actinidia chinensis Genome Sequence
Aethionema arabicum Genome Sequence
Amaranthus hybridus Genome Sequence
Amborella trichopoda Genome Sequence
Anthoceros agrestis Genome Sequence
Aquilegia oxysepala Genome Sequence
Arabidopsis lyrata Genome Sequence
Arabidopsis thaliana Genome Sequence
Arachis hypogaea Genome Sequence
Avicennia marina Genome Sequence
Beta vulgaris Genome Sequence
Brassica carinata Genome Sequence
Brassica napus Genome Sequence
Brassica oleracea Genome Sequence
Brassica rapa Genome Sequence
Camellia sinensis var. sinensis Genome Sequence
Cannabis sativa Genome Sequence
Capsella rubella Genome Sequence
Capsicum annuum Genome Sequence
Cardamine hirsuta Genome Sequence
Carica papaya Genome Sequence
Carpinus fangiana Genome Sequence
Carya illinoinensis Genome Sequence
Ceratophyllum demersum Genome Sequence
Chara braunii Genome Sequence
Chenopodium quinoa Genome Sequence
Chlamydomonas reinhardtii Genome Sequence
Cicer arietinum L. Genome Sequence
Citrullus lanatus Genome Sequence
Citrus clementina Genome Sequence
Coffea canephora Genome Sequence
Corchorus olitorius Genome Sequence
Corylus avellana Genome Sequence
Cucumis melo Genome Sequence
Cucumis sativus L. Genome Sequence
Daucus carota Genome Sequence
Davidia involucrata Genome Sequence
Durio zibethinus Genome Sequence
Erigeron canadensis Genome Sequence
Erythranthe guttata Genome Sequence
Eucalyptus grandis Genome Sequence
Eutrema salsugineum Genome Sequence
Fragaria vesca Genome Sequence
Fragaria x ananassa Genome Sequence
Glycine max Genome Sequence
Gossypium hirsutum Genome Sequence
Gossypium raimondii Genome Sequence
Helianthus annuus Genome Sequence
Hydrangea macrophylla Genome Sequence
Lactuca sativa Genome Sequence
Lonicera japonica Genome Sequence
Lotus japonicus Genome Sequence
Lupinus albus Genome Sequence
Magnolia biondii Genome Sequence
Malus domestica Genome Sequence
Manihot esculenta Genome Sequence
Marchantia polymorpha Genome Sequence
Medicago truncatula Genome Sequence
Micromonas commoda Genome Sequence
Nelumbo nucifera Genome Sequence
Nicotiana tabacum Genome Sequence
Olea europaea Genome Sequence
Oryza sativa ssp. japonica Genome Sequence
Papaver somniferum Genome Sequence
Petunia axillaris Genome Sequence
Phaseolus vulgaris Genome Sequence
Physcomitrium patens Genome Sequence
Pisum sativum Genome Sequence
Populus trichocarpa Genome Sequence
Prasinoderma coloniale Genome Sequence
Prunus persica Genome Sequence
Punica granatum Genome Sequence
Quercus lobata Genome Sequence
Rhododendron simsii Genome Sequence
Rosa chinensis Genome Sequence
Salix brachista Genome Sequence
Salvia bowleyana Genome Sequence
Sapria himalayana Genome Sequence
Schrenkiella parvula Genome Sequence
Sechium edule Genome Sequence
Selaginella moellendorffii Genome Sequence
Selenicereus undatus Genome Sequence
Sequoiadendron giganteum Genome Sequence
Simmondsia chinensis Genome Sequence
Solanum lycopersicum Genome Sequence
Solanum pennellii Genome Sequence
Solanum tuberosum Genome Sequence
Striga asiatica Genome Sequence
Tarenaya hassleriana Genome Sequence
Theobroma cacao Genome Sequence
Trifolium pratense Genome Sequence
Tripterygium wilfordii Genome Sequence
Trochodendron aralioides Genome Sequence
Utricularia gibba Genome Sequence
Vaccinium macrocarpon Genome Sequence
Vanilla planifolia Genome Sequence
Vigna mungo Genome Sequence
Vitis vinifera Genome Sequence
Zea mays Genome Sequence
Enter sequence below in
FASTA
format
>SGA_v2.0_scaffold8G04469 ATGGTGGTGGCTGCTCATTTGGAATCAATGGCTTCGGAGGATGGGATGAAAACTAGCAAA AACAAAATAGCTCCTGCATCTAAGAAAAATATGGCAACTGACAAAAAAAGACAAAAGAGG GCTGCTTCTCCGACTGCTGAGAACCCTGCTGTTTCTCGTAAAATGCCCAAGCGTGCTGCG GCTTGTTCGGATTTCAAGGAGAAGTCTTGTCGTATATCTGGAAAAGATTCAGTTCTCGAA ACAAAAAAAGATCGAGTCGTTGAAGAAGAACTCATTGCTGTTCGTCTGACTGCTGAACAA GAGGATGGCCGCCCATGCAGGCGGCTCACTGATTTCATCTTCTATAATTCAGAAGGAGTT GCGCAGCCTTTTGAAATGCTCGAAGCGGATGATATCTTTATCACTGGACTCATCTTACCG CTTGAGGAAAGTTCTGACAAGGAGAAAGCGAAAGGAATTAGATGTGAAGGATTTGGTCGA GTTGAGGAATGGGCCATATCTGGTTATGAAGAGGGAACCCCAGTGATATGGGTTTCAACA GAGTTGGCTGATTATGATTGCTTGAAACCCTCTGGAAGCTACAAGAAGTTCTATGACCAT TTTTATGCAAAAGCCAGTGCCTGTGTTGAGGTTTATAAGATACTGTCCAAGCCATCTGGA GGTGACCTATGCCTTGATGAGCTGCTTGCTGTGCTTGTGCGTGCAATGAGCGGGATGAAG TGCTTCTCTAGTGGTCTATCTATCAGGGATTTTATTGTTTCCCAGGGTGATTTCATCTAT AACCAGCTTATAGGTTTGGACGAGACCTCGAAGAATGATATGCAATTTGCTGAGCTGCCC GTTCTTGCCGCCCTTAGAGATGAAAGCAGCAAGTTGGATATTGATAAACCTCTGCCTGAT CCTCTTTCAGGTAACCTGAGAATAGGTCCAAAATGTGGCGATGAAAATGTGACTTGTCCA GCAGAAGAAGATGAAGATTTGAAAATGGCGAGGGTGTTGCAGGAAGAAGAACGCTGGCGC TCGATGAAGCAGAAGAAAGGCCGTGGCTCAAACTCCTCGTCCAGCAAATACTACATTAAG ATCAATGAGGATGAAATTGCCAATGACTATCCCCTACCTGCCTATTATACAACTTCAAAT GAAGAAACTGATGAGTATATAATTTTTGATGGTGGCGTAGATGTGCTGAACATTGAGGAC TTGCCCCGGAGCATGTTGCACGACTGGGCTTTGTACAATTCGGATTCTCGATTGGTCCCA TTGGAGCTCCTTCCCCTGAAACCTTGTGATGAGATTGATGTGACCATATTTGGGTCGGGT GTAATGAGTGCTGATGATGGATCTGGATACATCTGTGATGGTGATTCTGCTTACTCTTCA TATGGTTCTGATGCTACTGCTGTTGAAGGGATCCCAATTTTCTTGAGTGCAATCAAAGAA TGGGTGATTGAATTCGGGTCTGCAATGATTTCGATTTCTATACGGACTGATATGGCCTGG TATAGGCTTGGAAAACCTTCAAAGCAATATGCTCCATGGTATGAGCAAGTCCTGAAAACA GCAAGGCTTGCAATAAGTATCATTACTTTGCTGAAAGAGCAGATCCGTGTGGCAAGACTC TCTTTCACGGATGTTATCAAGAGAATCTCTGATTTTAACAAAGACAATCCAGCTTTTATA TCATCCAACTCAGTGCTAGTAGAAAGATATGTGGTTGTGCATGGCCAGATTATTCTGCAG CAATTCTCAGAGTATCCCGATAACAACATAAAAAAGTGCCCATTTGTGATTGGACTCACC CAGAAAATGGAAGAGAAACACCACACTAAATGGCTTGTCAAGAAAAAGAAGTTCCTGGAG AGGGATGAACAAAACTTGAATCCGAGGGCCACTATTGCGCCTGTTGTGTCCAAAAGGAAG GCCATGCAGGCAACTACGACGAGGCTAGTCAACAGAATATGGGGTGAGTATTATTCCAAT TACTCGCCTGAGGAATCAAATGAAGGAACCCAATATGAAGTAAAAGAAATTGAAGATAAC GAAGAGCAGGAGGGCAATGAGGAGGATGATACTCTTGAGGAGAAACTGTTAGAACAGGAG GAAACTCACACACCTAGTCCCATGCTAAGGCAGACAAAGTCCCGTTCAGGTTGCAAGGAA GTAAATTGGGATGGGAAATCTGAGGGAAAATTATCTACCGGTGAGTCTTTATATAGAAAG GCAATAGTCCATGGGGATGAAATTGCAGCTGGTGGGGCTGTTCTTGTGCAAGATGATGAA TCAGATGAATTCCCGTCAATTTATTTTGTTGAATACATGTTTGAAAAATTGGATGGGAAG AAAATGTTACATGGGAGAATGATGCAACGAGGCTGCCAAACTGTGCTGGGAAATGCTGCA AATGAAAGGGAGGTATTTTTGACAAATGAATGTGAGGACTTCCTACTGGAAGAAGTCAGG CAGAATATACATGTTGAAATAAGATCAATTCCTTGGGGTCATCAGCACAGGAAAGCAAAT GCAGATGCTGATAAAGTTGATCGAGCAAGAGCAGAAGAAAGGAAGAAGAAGGGGCTGCCT ACTGAGTATTACTGCAAAAGCCTGTATTGGCCAGAGAGAGGTGCATTCTTTGCCCTTCCA TATGGGTCGATGGGACTTGGATCCGGCTTGTGTGGGGCATGCCGAGCAAAGGAGGCTGAT GATAACAAGGAAAAGTTTAAATTGGATACATCACTGACAAGTTTCCTATATGGAGGAATT AAATATTCTATTGATGACTATGTCTACGTGAGTCCTTACTACTTTTGTTCCGAAAGGGAA ACTGAAATTTTCAAGTCAGGGAGGAATGTAGGACTAAAGGCATATGCTATATGCCAGCTG CTTGAAATTTGTGATGTTAAGCATCGCAAGCAGAGTGATGCCAGTTCAGTGGAGGTCACG GTCAGAAGATTTTTCAGGCCAGAGGACATATCATCTGAGAAGGCCTACTCATCGGATATA CGGGAGGTCTATTATAGTGAGGAGATGCATACGATACCAGTTGAAGTGATTGAAGGAAAA TGCGAGATCAGAAAAAAGAAGGATCTCGGACCTCAAGATGTCACTTTTACATATGACCAT GCTTTCTTTTGTGAATATATGTACGATCCTTCTAGAGGATCTCTTAAGAAGTTGCCATCA AATATCAAGATTAAGTATTCAACAGAGCAGTTGAATGATGATACTAAATCTAGGAAGAGT AAGGGGAAATGCAAAGAAGGCGAGGTCGATTCAGAAGTTGTAAAGCTCAAAGAAGAATCT CAGGGACACCGCTTGGCTACATTAGATATTTTTGCTGGCTGTGGTGGCTTATCTGAGGGA CTAGAGCATTCTGGTGCTTCTCTAACAAAATGGGCTATCGAGTATGAAGAGGCTGCTGGA GATGCATTCAGACTCAATCATCCTGGATCTTTGGTATTTGTAAACAATTGCAATGTCATC CTGAGGGCGGTTATGCAAAAGTGTGGAGATGCAGATGACTGCATCTCAACCCCTGAGGCT GCTGAGCTGGCAGAAAAGCTCGATCAAGTTGAACTCGATAACCTTCCAGTTCCAGGACAA GTTGATTTTATTAATGGAGGGCCTCCTTGCCAGGGGTTTTCTGGAATGAATAGGTTCAAC CAGAGTACATGGAGTAAAGTCCAATGTGAGATGATTTTGGCATTTCTATCCTTTGCTGAT TACTACCGCCCGAAATATTTTCTTCTTGAGAATGTCCGCAACTTTGTGTCATTCAACCAA GGCCAGACTTTTCGCCTAACTTTAGCTTCGCTTCTTGAGATGGGATATCAGGTGAGATTT GGTATCCTTGAAGCTGGTGCATATGGGGTTCCACAGTCTCGAAAGAGAGCATTTATATGG GCGGCTTCTCCTGAACAGCTGCTTCCAGAGTGGCCTGAGCCGATGTATGTCTTTGCTGCA CCTGAGTTGAAAATCTCAATGTCAAAGAATCTTCACTATTCGGCTGCTAAGAGTACTACA AAAGGAGCTCCATTTCGCTCTCTTACTGTCAGAGATACAATTGGGGATCTTCCTCCTGTG GGCAATGGTGCATCAAACACAAGTTTACAGTATCAAGGTGAGCCTATATCATGGTACCAG AAGCAAATCCGGGGTACCATGGCCACATTAATTGACCACATCTCAAAGGAAATGATTGAG CTTAACCTAATCAGGTGTCAGAAAATCCCCAAGCGTCCTGGTGCTGACTGGCGTGATCTT CCAGATGAAAAGGTGAAATTATCAACTGGCCAAGTAGCTGATTTGATACCATGGTGCTTG CCTAATACTGCCAAGAGGCACAATCAATGGAAAGGACTGTTTGGAAGGTTGGATTGGGAG GGTAATTTCCCGACTTCTATAACTGACCCACAACCGATGGGCAAAGTTGGAATGTGCTTT CATCCTGAACAAGACAGGATTGTTACTGTTCGTGAGTGTGCACGCTCTCAGGGTTTCCCT GATAGCTATAAATTTTCTGGTAACGTTCTTCACAAGCACAGACAAATTGGAAATGCTGTT CCTCCTCCACTGGCTTATGCACTGGGAAGAAAACTGAAGGAGGCAGTTGAGGGCAAAAGC AATTGCTAG
Advanced options
Filter low complexity
Expect
1e-10
1e-5
0.001
0.1
1
10
Matrix
PAM30
PAM70
BLOSUM45
BLOSUM62
BLOSUM80
Perform gapped alignment
Query Genetic codes - (T)Blastx only
Standard (1)
Vertebrate Mitochondrial (2)
Yeast Mitochondrial (3)
Mold Mitochondrial; ... (4)
Invertebrate Mitochondrial (5)
Ciliate Nuclear; ... (6)
Echinoderm Mitochondrial (9)
Euplotid Nuclear (10)
Bacterial (11)
Alternative Yeast Nuclear (12)
Ascidian Mitochondrial (13)
Flatworm Mitochondrial (14)
Blepharisma Macronuclear (15)
Output format
Pairwise
query-anchored showing identities
query-anchored no identities
flat query-anchored, show identities
flat query-anchored, no identities
XML BLAST output
tabular
tabular with comment lines
Text ASN.1
Binary ASN.1
Comma-seperated values
BLAST archive format (ASN.1)
Descriptions
0
1
10
50
100
250
500
Alignments
0
1
10
50
100
250
500