Spo14264 (gene)

Overview
NameSpo14264
Typegene
OrganismSpinacia oleracea (Spinach)
DescriptionUnknown protein
LocationSpoScf_00911 : 23375 .. 27634 (+)
Sequences
The following sequences are available for this feature:

Gene sequence (with intron)

Legend: polypeptideexonCDSthree_prime_UTR
Hold the cursor over a type above to highlight its positions in the sequence below.
ATGCAAGTGATGCGGTGCCGCAAGGGTTGTGGTGAGTGAGGTATTCTTTCGAACCCAAAATCTGAATCCTAGGTTTTGTCTTCTTTTCCAATCCCGCAGGAATCAATTTGGGGTTTTTGGTTTTGTCTATTTTCGCAGTACCAAAACAAAGCATATTACTTTGTAATGATTAAGTGACTTTAATTCCCATAATAAATTTTAAATCAAACTAATAAGAATGTTATTTTAGATTATTTTAAGTTAGTTGCTGCTTGCCGTATATGTTGTTTGAGTTTCATTACTATGCCTCTACTTGCCGTAGATTTCTGTCCTTTGTTATGCAAAATACTCTGTATACTTTGCTATTGTTAGGAATCTAGTGGTGGTGTTCTTATGTAATTGTTGGTTGTGATTTCAATGAAATGAAAATCTCGTTCACTATACTCGTTGTTAAGTGTTTAATTTCTGATTCTGATATAATTGTTGGTTGGTTGTTACTATAATTTCTGATTTTGATTTAATTTTTGGCCGTTGATAAAATTTCTGATTCTGAAAATCTCGTTCAATATGAATTAATTTCTCCTTCCAAATAATTTCTGGTTGTGATTTCAATGAAGCTCATTTTCTAGATGACTTAGTTTTTGTGCTCCAATTCTTTTTGCAAATAATGAACTTGTATAGAATCAGTCGATTCTAATGAGTCGTTTTTTTTTTGCAGTTGTCGAGGTTCGTTCATGGATAAATTTGTTCAAGATCCAGTTCAGAAAACAGAGGAAGAAATTTTTTATTTTTCTAATTCTGAATATTTCGGGGTATGGGTTGACGATTCCCTCGAGCCATTTCCCGTTGTTCCTTAAACTCCAATGGATGATGTATACAATCCAGAAACTCCAATGGATGATTTATATGATCCAATGGTTGTTGTTCGTGAACCTCCAATTCAATCTCTAGTTGCTTACTATTGAGAAGAACTCGAGGATTGGGTTGCTCTCGGCAATCCCGATCGTGATATATCCATCACTCTAGCTCTTTCTCGCAAGCGTAAAGGTAATAGTGATGGTAAGGATAAGCTAGTAAGAGAGGTAAGGTATCAAACGATGATGTTTTTGAGATGTTGAAAGGTTATGTACCTTCTATTAAACGGTGATACTTCTGAAAGTGAATGATTCTGGTTGTTGGTGTTCTTGAATGTGAATAAGTGTTGTTGTTGGTGGTTAGTAAATGTATCGATCTGTTATATAATTGTGGCTATTGTGTACTTTGTTATGTAATTGTGGCTATTGTTGTGGTTGTTCTGGACTTTTGGTTATTCTGTACTCTGTTGTGGTTATTCAGTACTACGTTGGTGCTATTGTGGCCCTGTAATTGGTAAGCAACCTAAATTCTACTATGTTCCTGTTTAATAAAATGTTAATCGATGCAATTAAGTGTTTGGATATACGATTACTAATGAGAAACTATGAAAATGTTAGTTAATAATTGGTTATTACAATATGTTAAGGAGTGTACAAAAATGTTTACAAAATAATTTGATGAACCTGTTATGACTGCAAAATGTTTACAAAAGTACTCCCTAACACTAGACATTCCTTGCTCTCAAAAGCTAGTTTGTTGCATTAGACTCCCTGTTGCGTTGCTTCAACAAATGCTACACATTCTCCTACTAGAGTAGGAGGTGGAGAGAAGATGACAAGGAGTATCCTTTGTCTCTCCAAAGCTTCTTTGCCAACATCCCTTGACTCTCATAACCTCTATTAGTACAAATGCAAACTAAGAAAGACTCTATTTACTTTGATTGGACAAAATTCCCTAAATGAAGCTTTGACATTCTTAACCAACTCTTTAGTGTTTCTAGTAGAAGTCTGGTCTTTTAGGGATTGTATTTCTCAAAAAGAATTAAGGTCTAGCACATTCATATATGGACTGTTAGTAGGTTGAAATATCAACCTTAATTGTTTGTTTGAAAGTTGAACTTCTTCCATCCATTCTCTGTCATTCACTTGTATATGAGGCCGTGCATTGTCTTGTTGCAAATAGATTAGGCCTTGATGATCTGTTGGCCACTTTTGCATGATTGCTGGAATATCTTGTCTAATTAACATGTTTCTGTAAGTTTCCTTTGTGACTGAAGTCACAGGTTTGAGCTCCAAAGTGTCTGTTGGCCTATTTCTACTTCTCCTCTTTGCTGTTACCCACTTCACAAATGGAAACATGTTTGTTTTACCATCGAAATGCATTCTCTATTTTCATTGAATCGTGGTCTTGCAACAGCACAAAGAAACATGACTTTTGTGATGAATCTCTTGCTCTTACATGATATGTAAGGTCCGAGTTCACCTAGGAGAAGGTAATACCTTTGTGTCCCTTTTTTCATGTAAAAGAACTTCTCATCTTAGTGGATTATGTTGTACATATCACTAAAATCACCATTGTTCTAATCAATTTCTCCAAGGCGCCACTTCACTCTTTCTTTTAGATTTTCATTGGTAAGTGACGGTTTCATTGCATTGTTATGTGGCTTTATTAGCCCCATTTTTTCCACTTGTAAATTGTGGTCTTTGAAAGCTCTAATTCTTTTGCAAGTGACCTAACGTTTACTCGTTTGGGATATGAAATTTGAGCAATTAGAAGAAGTATTCTTAAGTGAAGCTTACCTTTTTTTTTTTGCCGCATTTTTTGGGTTTCTGTGATTGAATACTCACTGGTTGTTGATTGTCATATTGTGCTTTACCCACCTTCCAGATTCTTTGTATTGTTGACCGGTTGACATCAAAAAGATAAACTGCTTCAGTGACAATGCCCCTCTTCTTCTTCTTTCCACCGTTTCTCTGTTCAAGTAACCAGTTGGCAATTCTGGTTTTTGCTGCATCTGTGAGTTCTCTCTTGGCCCTTCTCATTTTTTTTACTCAGTACACTAGTTGCAACCAATTGAGAATGGAAGAGGCAATCTTCAGCGAAGTTCAGACTCTCTTTTCACTTGAGGATGCAATTTTTGTGCTAAGTTTATGGTTAATTATACGAATTGCAACCAAGTCGGACTTGTAGGGTTTAAGTTTAAACTCTCATTTTACTTAGGACGGCAAGAGTGTATGTTAACCACCTCAATGATGAAATTTTTTTGAGAGGTTTTAGAAAAATAGATTTACACTATCCAAACCCCCTCCCCACACTAATTAATTTCTTTTTGTTTTTCCCTTTTCAAACTAAAGTCAGTTTTAAACTACCCCCCACCCCCACACACCCACACACAATTAAATGATGCTTGTTTTTCCTTGTTTTCCTATTTTTTTTCTACACTTATTTTCAGGTTGACGAAGTGTTGGAGAAGTTGTAGAAAAGAGGAGCAAGCATTTATGAGGGAAGCATATTTATAATGGTCCAAATTTAGGGTTTTACTTCTACTTAAATTTAGGAGGAAAAGTGTGTAAAAAAATCGTAAATTTTACTCTTGCTCTTTGTTAGAATTTTCCCCAAAATTTTAGAGGAAAAATGAATAAATTATGTGATTTTTGGAAATTCCCCAAATATTTATAGGGAAAATGTAATAACAGAACTTTTTTGGAATCCCCCCCCCCCCCCCCCNNCCCCCCCCCCCCCCCCCCCAGTTTTAGAGGAAAAGTGTAATTAAAGTACGTTTTTGGAATTTTCCTCCAATAATTTTAGAGGGAAAATGAATGTTTGTTGTGGTCTTGGCGATACTTTCCTCCCACTATGCCCCACTGTCACTTTTCAGAAGCACGTATTAGGTCCCCAAACAGATTCAGGTGCCCACACCCCCCCACCCCCTACCTCCCTTATACATTTCCCACTAACTACATTAAAATAATAACCCNCCCACACCCCCCCACCCCCTACCTCCCTTATACATTTCCCACTAACTACATTAAAATAATAACCCACGATAAACTTCTACCCATTAAACTAATAAGTCAATTCAAGTCCCTTAAACTCTGTGCCAGTCAAACCGGGGCGAGTATTAAGGGACGGAGTGAAGGAAATAATGCCATTGGTCCAAGTATGCATTCAATGCTAAGTCTAATAAATGCGGTTCAGTATTAATTATACAAGTTAATAATTCGGTAAGATCAAGTGAACTGTATGCCTAGCTAGAGGCCGCTTCAGTTCAAGTGGAATTAATAATATTAATCCACAACTTACTCTTGACTGAACCCGTAGGGTCACACATATAGTACGTGAACGGATCAAGTATTTAAAGGATTTAAATACTCCATTTATGAATATTCGGAATCGACGGATCTCGGTTCCAGTGGGAGCTGAAAT

mRNA sequence

ATGCAAGTGATGCGGTGCCGCAAGGGTTGTGTTGTCGAGGTTCGTTCATGGATAAATTTGTTCAAGATCCAGTTCAGAAAACAGAGGAAGAAATTTTTTATTTTTCTAATTCTGAATATTTCGGGGTATGGGTTGACGATTCCCTCGAGCCATTTCCCGTTGTTCCTTAAACTCCAATGGATGATGTATACAATCCAGAAACTCCAATGGATGATTTATATGATCCAATGGTTGTTGTTCGTGAACCTCCAATTCAATCTCTAGTTGCTTACTATTGAGAAGAACTCGAGGATTGGGTTGCTCTCGGCAATCCCGATCGTGATATATCCATCACTCTAGCTCTTTCTCGCAAGCGTAAAGGTAATAGTGATGGTAAGGATAAGCTAGTAAGAGAGGTAAGGTATCAAACGATGATGTTTTTGAGATGTTGAAAGGTTATGTACCTTCTATTAAACGGTGATACTTCTGAAAGTGAATGATTCTGGTTGTTGGTGTTCTTGAATGTGAATAAGTGTTGTTGTTGGTGGTTAGTAAATGTATCGATCTGTTATATAATTGTGGCTATTGTGTACTTTGTTATGTAATTGTGGCTATTGTTGTGGTTGTTCTGGACTTTTGGTTATTCTGTACTCTGTTGTGGTTATTCAGTACTACGTTGGTGCTATTGTGGCCCTGTAATTGGTAAGCAACCTAAATTCTACTATGTTCCTGTTTAATAAAATGTTAATCGATGCAATTAAGTGTTTGGATATACGATTACTAATGAGAAACTATGAAAATGTTAGTTAATAATTGGTTATTACAATATGTTAAGGAGTGTACAAAAATGTTTACAAAATAATTTGATGAACCTGTTATGACTGCAAAATGTTTACAAAAGTACTCCCTAACACTAGACATTCCTTGCTCTCAAAAGCTAGTTTGTTGCATTAGACTCCCTGTTGCGTTGCTTCAACAAATGCTACACATTCTCCTACTAGAGTAGGAGGTGGAGAGAAGATGACAAGGAGTATCCTTTGTCTCTCCAAAGCTTCTTTGCCAACATCCCTTGACTCTCATAACCTCTATTAGTACAAATGCAAACTAAGAAAGACTCTATTTACTTTGATTGGACAAAATTCCCTAAATGAAGCTTTGACATTCTTAACCAACTCTTTAGTGTTTCTAGTAGAAGTCTGGTCTTTTAGGGATTGTATTTCTCAAAAAGAATTAAGGTCTAGCACATTCATATATGGACTGTTAGTAGGTTGAAATATCAACCTTAATTGTTTGTTTGAAAGTTGAACTTCTTCCATCCATTCTCTGTCATTCACTTGTATATGAGGCCGTGCATTGTCTTGTTGCAAATAGATTAGGCCTTGATGATCTGTTGGCCACTTTTGCATGATTGCTGGAATATCTTGTCTAATTAACATGTTTCTGTAAGTTTCCTTTGTGACTGAAGTCACAGGTTTGAGCTCCAAAGTGTCTGTTGGCCTATTTCTACTTCTCCTCTTTGCTGTTACCCACTTCACAAATGGAAACATGTTTGTTTTACCATCGAAATGCATTCTCTATTTTCATTGAATCGTGGTCTTGCAACAGCACAAAGAAACATGACTTTTGTGATGAATCTCTTGCTCTTACATGATATGTAAGGTCCGAGTTCACCTAGGAGAAGGTAATACCTTTGTGTCCCTTTTTTCATGTAAAAGAACTTCTCATCTTAGTGGATTATGTTGTACATATCACTAAAATCACCATTGTTCTAATCAATTTCTCCAAGGCGCCACTTCACTCTTTCTTTTAGATTTTCATTGGTAAGTGACGGTTTCATTGCATTGTTATGTGGCTTTATTAGCCCCATTTTTTCCACTTGTAAATTGTGGTCTTTGAAAGCTCTAATTCTTTTGCAAGTGACCTAACGTTTACTCGTTTGGGATATGAAATTTGAGCAATTAGAAGAAGTATTCTTAAGTGAAGCTTACCTTTTTTTTTTTGCCGCATTTTTTGGGTTTCTGTGATTGAATACTCACTGGTTGTTGATTGTCATATTGTGCTTTACCCACCTTCCAGATTCTTTGTATTGTTGACCGGTTGACATCAAAAAGATAAACTGCTTCAGTGACAATGCCCCTCTTCTTCTTCTTTCCACCGTTTCTCTGTTCAAGTAACCAGTTGGCAATTCTGGTTTTTGCTGCATCTGTGAGTTCTCTCTTGGCCCTTCTCATTTTTTTTACTCAGTACACTAGTTGCAACCAATTGAGAATGGAAGAGGCAATCTTCAGCGAAGTTCAGACTCTCTTTTCACTTGAGGATGCAATTTTTGTGCTAAGTTTATGGTTAATTATACGAATTGCAACCAAGTCGGACTTGTAGGGTTTAAGTTTAAACTCTCATTTTACTTAGGACGGCAAGAGTGTATGTTAACCACCTCAATGATGAAATTTTTTTGAGAGGTTTTAGAAAAATAGATTTACACTATCCAAACCCCCTCCCCACACTAATTAATTTCTTTTTGTTTTTCCCTTTTCAAACTAAAGTCAGTTTTAAACTACCCCCCACCCCCACACACCCACACACAATTAAATGATGCTTGTTTTTCCTTGTTTTCCTATTTTTTTTCTACACTTATTTTCAGGTTGACGAAGTGTTGGAGAAGTTGTAGAAAAGAGGAGCAAGCATTTATGAGGGAAGCATATTTATAATGGTCCAAATTTAGGGTTTTACTTCTACTTAAATTTAGGAGGAAAAGTGTGTAAAAAAATCGTAAATTTTACTCTTGCTCTTTGTTAGAATTTTCCCCAAAATTTTAGAGGAAAAATGAATAAATTATGTGATTTTTGGAAATTCCCCAAATATTTATAGGGAAAATGTAATAACAGAACTTTTTTGGAATCCCCCCCCCCCCCCCCCNNCCCCCCCCCCCCCCCCCCCAGTTTTAGAGGAAAAGTGTAATTAAAGTACGTTTTTGGAATTTTCCTCCAATAATTTTAGAGGGAAAATGAATGTTTGTTGTGGTCTTGGCGATACTTTCCTCCCACTATGCCCCACTGTCACTTTTCAGAAGCACGTATTAGGTCCCCAAACAGATTCAGGTGCCCACACCCCCCCACCCCCTACCTCCCTTATACATTTCCCACTAACTACATTAAAATAATAACCCNCCCACACCCCCCCACCCCCTACCTCCCTTATACATTTCCCACTAACTACATTAAAATAATAACCCACGATAAACTTCTACCCATTAAACTAATAAGTCAATTCAAGTCCCTTAAACTCTGTGCCAGTCAAACCGGGGCGAGTATTAAGGGACGGAGTGAAGGAAATAATGCCATTGGTCCAAGTATGCATTCAATGCTAAGTCTAATAAATGCGGTTCAGTATTAATTATACAAGTTAATAATTCGGTAAGATCAAGTGAACTGTATGCCTAGCTAGAGGCCGCTTCAGTTCAAGTGGAATTAATAATATTAATCCACAACTTACTCTTGACTGAACCCGTAGGGTCACACATATAGTACGTGAACGGATCAAGTATTTAAAGGATTTAAATACTCCATTTATGAATATTCGGAATCGACGGATCTCGGTTCCAGTGGGAGCTGAAAT

Coding sequence (CDS)

ATGCAAGTGATGCGGTGCCGCAAGGGTTGTGTTGTCGAGGTTCGTTCATGGATAAATTTGTTCAAGATCCAGTTCAGAAAACAGAGGAAGAAATTTTTTATTTTTCTAATTCTGAATATTTCGGGGTATGGGTTGACGATTCCCTCGAGCCATTTCCCGTTGTTCCTTAAACTCCAATGGATGATGTATACAATCCAGAAACTCCAATGGATGATTTATATGATCCAATGGTTGTTGTTCGTGAACCTCCAATTCAATCTCTAG

Protein sequence

MQVMRCRKGCVVEVRSWINLFKIQFRKQRKKFFIFLILNISGYGLTIPSSHFPLFLKLQWMMYTIQKLQWMIYMIQWLLFVNLQFNL
Relationships

The following mRNA feature(s) are a part of this gene:

Feature NameUnique NameType
Spo14264.1Spo14264.1mRNA


Homology
The following BLAST results are available for this feature:
BLAST of Spo14264.1 vs. NCBI nr
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. NCBI nr)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo14264.1 vs. UniProtKB/TrEMBL
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. UniprotKB/TrEMBL)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo14264.1 vs. ExPASy Swiss-Prot
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. ExPASy SwissProt)
Total hits: 0
Match NameE-valueIdentityDescription
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BLAST of Spo14264.1 vs. TAIR (Arabidopsis)
Analysis Date: 2018-06-29 (blastp Spinacia oleracea peptides vs. TAIR)
Total hits: 0
Match NameE-valueIdentityDescription
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GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
Category Term Accession Term Name
biological_process GO:0010260 animal organ senescence
biological_process GO:0050983 obsolete deoxyhypusine biosynthetic process from spermidine
biological_process GO:0006552 leucine catabolic process
biological_process GO:0006550 isoleucine catabolic process
biological_process GO:0006635 fatty acid beta-oxidation
biological_process GO:0016119 carotene metabolic process
biological_process GO:0019482 beta-alanine metabolic process
biological_process GO:0008612 peptidyl-lysine modification to peptidyl-hypusine
biological_process GO:0009553 embryo sac development
biological_process GO:0009409 response to cold
biological_process GO:0006468 protein phosphorylation
biological_process GO:0009651 response to salt stress
biological_process GO:0000226 microtubule cytoskeleton organization
biological_process GO:0008152 metabolic process
biological_process GO:0006888 ER to Golgi vesicle-mediated transport
biological_process GO:0000911 cytokinesis by cell plate formation
biological_process GO:0009733 response to auxin
biological_process GO:0006574 valine catabolic process
biological_process GO:0043090 amino acid import
biological_process GO:0009773 photosynthetic electron transport in photosystem I
biological_process GO:0048544 recognition of pollen
biological_process GO:0016310 phosphorylation
biological_process GO:0016226 iron-sulfur cluster assembly
biological_process GO:0010027 thylakoid membrane organization
biological_process GO:0006364 rRNA processing
biological_process GO:0042793 plastid transcription
biological_process GO:0006098 pentose-phosphate shunt
biological_process GO:0016123 xanthophyll biosynthetic process
biological_process GO:0019288 isopentenyl diphosphate biosynthetic process, methylerythritol 4-phosphate pathway
biological_process GO:0042742 defense response to bacterium
biological_process GO:0009902 chloroplast relocation
biological_process GO:0015995 chlorophyll biosynthetic process
biological_process GO:0015706 nitrate transport
biological_process GO:0008643 carbohydrate transport
biological_process GO:0030007 cellular potassium ion homeostasis
biological_process GO:0007165 signal transduction
biological_process GO:0042908 xenobiotic transport
biological_process GO:0042967 obsolete acyl-carrier-protein biosynthetic process
biological_process GO:0006744 ubiquinone biosynthetic process
biological_process GO:0071805 potassium ion transmembrane transport
biological_process GO:0006886 intracellular protein transport
biological_process GO:0006863 purine nucleobase transport
biological_process GO:0006855 drug transmembrane transport
biological_process GO:0055085 transmembrane transport
biological_process GO:0019761 glucosinolate biosynthetic process
biological_process GO:0000023 maltose metabolic process
biological_process GO:0055114 oxidation-reduction process
biological_process GO:0019252 starch biosynthetic process
biological_process GO:0003333 amino acid transmembrane transport
cellular_component GO:0005777 peroxisome
cellular_component GO:0005622 intracellular
cellular_component GO:0005739 mitochondrion
cellular_component GO:0009570 chloroplast stroma
cellular_component GO:0009706 chloroplast inner membrane
cellular_component GO:0005840 ribosome
cellular_component GO:0016021 integral component of membrane
cellular_component GO:0005634 nucleus
cellular_component GO:0008076 voltage-gated potassium channel complex
cellular_component GO:0009507 chloroplast
cellular_component GO:0005774 vacuolar membrane
cellular_component GO:0000325 plant-type vacuole
cellular_component GO:1990904 ribonucleoprotein complex
cellular_component GO:0019013 viral nucleocapsid
cellular_component GO:0016020 membrane
cellular_component GO:0005886 plasma membrane
molecular_function GO:0003723 RNA binding
molecular_function GO:0004672 protein kinase activity
molecular_function GO:0005524 ATP binding
molecular_function GO:0000166 nucleotide binding
molecular_function GO:0005506 iron ion binding
molecular_function GO:0008559 xenobiotic transmembrane transporting ATPase activity
molecular_function GO:0003677 DNA binding
molecular_function GO:0016491 oxidoreductase activity
molecular_function GO:0008281 sulfonylurea receptor activity
molecular_function GO:0005249 voltage-gated potassium channel activity
molecular_function GO:0034038 deoxyhypusine synthase activity
molecular_function GO:0008080 N-acetyltransferase activity
molecular_function GO:0043531 ADP binding
molecular_function GO:0005515 protein binding
molecular_function GO:0008375 acetylglucosaminyltransferase activity
molecular_function GO:0016709 oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, NAD(P)H as one donor, and incorporation of one atom of oxygen
molecular_function GO:0003860 3-hydroxyisobutyryl-CoA hydrolase activity
molecular_function GO:0010291 carotene beta-ring hydroxylase activity
molecular_function GO:0020037 heme binding
molecular_function GO:0005215 transporter activity
molecular_function GO:0003824 catalytic activity
molecular_function GO:0016887 ATPase activity
RNA-Seq Expression
   



Co-expression
Gener valueExpression
Spo096380.79Barchart | Table
Spo046590.76Barchart | Table
Spo116300.76Barchart | Table
Spo219560.74Barchart | Table
Spo062520.73Barchart | Table
Spo069890.73Barchart | Table
Spo021920.73Barchart | Table
Spo259530.73Barchart | Table
Spo072370.73Barchart | Table
Spo300010.72Barchart | Table
Spo157040.72Barchart | Table
Spo235950.72Barchart | Table
Spo078290.72Barchart | Table
Spo142700.72Barchart | Table
Spo044860.71Barchart | Table
Spo099020.71Barchart | Table
Spo120050.71Barchart | Table
Spo055080.71Barchart | Table
Spo039070.71Barchart | Table
Spo215810.70Barchart | Table
Spo174500.70Barchart | Table
Spo100860.70Barchart | Table
Spo193930.70Barchart | Table
Spo144730.70Barchart | Table
Spo202940.70Barchart | Table
Spo238540.70Barchart | Table
Spo029790.69Barchart | Table
Spo212740.69Barchart | Table
Spo230440.69Barchart | Table
Spo065740.69Barchart | Table
Spo024430.69Barchart | Table
Spo076330.69Barchart | Table
Spo224720.69Barchart | Table
Spo179080.69Barchart | Table
Spo105390.69Barchart | Table
Spo243390.69Barchart | Table
Spo135300.69Barchart | Table
Spo241450.69Barchart | Table
Spo031990.69Barchart | Table
Spo194420.68Barchart | Table
Spo036650.68Barchart | Table
Spo000890.68Barchart | Table
Spo259870.68Barchart | Table
Spo050130.68Barchart | Table
Spo113440.68Barchart | Table
Spo203790.68Barchart | Table
Spo159950.68Barchart | Table
Spo237080.68Barchart | Table
Spo123320.68Barchart | Table
Spo080480.68Barchart | Table
Spo089910.68Barchart | Table
Spo272500.68Barchart | Table
Spo240720.68Barchart | Table
Spo220000.68Barchart | Table
Spo097400.68Barchart | Table
Spo230350.68Barchart | Table
Spo215440.67Barchart | Table
Spo002750.67Barchart | Table
Spo008950.67Barchart | Table
Spo036500.67Barchart | Table
Spo106620.67Barchart | Table
Spo109650.67Barchart | Table
Spo112850.67Barchart | Table
Spo128530.67Barchart | Table
Spo142410.67Barchart | Table
Spo148300.67Barchart | Table
Spo188440.67Barchart | Table
Spo252620.67Barchart | Table
Spo261350.67Barchart | Table
Spo267390.67Barchart | Table
Spo119640.66Barchart | Table
Spo152150.66Barchart | Table
Spo270090.66Barchart | Table
Spo011740.66Barchart | Table
Spo044060.66Barchart | Table
Spo026650.66Barchart | Table
Spo139280.66Barchart | Table
Spo026490.66Barchart | Table
Spo169120.66Barchart | Table
Spo211350.66Barchart | Table
Spo153080.66Barchart | Table
Spo011550.65Barchart | Table
Spo259880.65Barchart | Table
Spo008070.65Barchart | Table
Spo003140.65Barchart | Table
Spo239930.65Barchart | Table
Spo097170.65Barchart | Table
Spo091350.65Barchart | Table
Spo226940.65Barchart | Table
Spo229210.65Barchart | Table
Spo069180.65Barchart | Table
Spo047780.65Barchart | Table
Spo047190.65Barchart | Table
Spo213610.65Barchart | Table
Spo018870.65Barchart | Table
Spo017880.65Barchart | Table