>5ANB_1|Chain A|60S RIBOSOMAL PROTEIN L3|DICTYOSTELIUM DISCOIDEUM (44689)
MSHRKFEAPRHGNLGFRPRKRAARHQGKVKSFPKDDRTQKVHLTAFMGYKAGMTHVVRDLEKPGSKMHKKEIVEAVTIIECPPMYIVGLVGYVETAQGLKTYKTVWAQHLSDNFRRRLYKNWYKSKSKKAFTKYVKQYETEEGKKSIEASLQAIKKRCSVVRVIAHTQVHKLKLTQKKAHVLEIQVNGGSIVEKVNFAVANFEKTVNVTGVFAENELIDVIGVTKGKGFNGVIKRWGVRKLPRKTHKGLRKVACIGAWHPSRVSTTVPRAGQLGYHHRVERNKKIYRIGQAQPEDGKQISTGKTEFDLTEKTINPMGGFAHYGMVKHEFLMLKGCVAGPRKRALTLRKSITTQTGRAALEKITLKFIDTSSKFGHGLHQTAEDKTKYFGVKKSRSTKA
>5ANB_2|Chain B|60S RIBOSOMAL PROTEIN L9|DICTYOSTELIUM DISCOIDEUM (44689)
MKVINSSRKVQIPENVTVDVKGRSVKVTGPRGTLSKSFDHASVDINLVGKKELTVDLWFGNRKQIACIKTITSIIENMITGVTKGYEYKMRFVYAHFPINVAVTDGGRVVEIRNFFGEKIVRRIELLDGITCYRNEKAKDEIVLTGNSLELLSQSCATIQLRSAIKYKDVRKFLDGIYVSERNVLESN
>5ANB_3|Chain C|60S ACIDIC RIBOSOMAL PROTEIN P0|DICTYOSTELIUM DISCOIDEUM (44689)
MSGAGSKRKNVFIEKATKLFTTYDKMIVAEADFVGSSQLQKIRKSIRGIGAVLMGKKTMIRKVIRDLADSKPELDALNTYLKQNTCIIFCKDNIAEVKRVINTQRVGAPAKAGVFAPNDVIIPAGPTGMEPTQTSFLQDLKIATKINRGQIDIVNEVHIIKTGQKVGASEATLLQKLNIKPFTYGLEPKIIYDAGACYSPSISEE
>5ANB_4|Chain D|60S RIBOSOMAL PROTEIN L12|DICTYOSTELIUM DISCOIDEUM (44689)
MPPKVDPSEKVEVFLRVCGGEAGAMSTLAPKLGPLGVSPKKVGDDIAKATQPWKGMKVSVKLTIQNRIAVPEVLPSASALVIKALKEPPRDRKKEKNIKHNGNIPLEEICKIAKTMRFKSLAVDFKGSVLEILGTAHSVGCKVNGKSPRDIQAGIQSGEIEVVEPK
>5ANB_5|Chain E|60S RIBOSOMAL PROTEIN L23|DICTYOSTELIUM DISCOIDEUM (44689)
MSKAQAVGSNYRVSLGLPVGAVMNSADNSGAKNLYVIAVKGIKGRLNRLPSAGVGDMVMATVKKGKPELRKKVCTGLVVRQRKHWKRKDGVYIYFEDNAGVMCNPKGEVKGNILGPVAKECSDLWPKVATNAGTIV
>5ANB_6|Chain F|60S RIBOSOMAL PROTEIN L10|DICTYOSTELIUM DISCOIDEUM (44689)
MGRRPARCYRYCKNKPYIKSRYCRGVPDAKIRIFDLGRKKASTDEFPLCVHLISLEKEQLSSEAIEAGRISCNKYISKTGGKDSFHMRVRVHPWHVLRINKMLSCAGADRLQTGMRGAFGKPMGTVARVNIGQIIFSIRTRDNMLANVVEALRRSSYKFPGRQKIVVSKKWGFTAYNREAYQKLKADGRLMNDGANVKVITNHGTLAQYAKDIAAAN
>5ANB_7|Chain G|60S RIBOSOMAL PROTEIN L24|DICTYOSTELIUM DISCOIDEUM (44689)
MKTSLCNYSEFKIYPARGMKFVRGDSKVFHFINTKVESLFFRKINPRDIRWSMVYRRIYKNTTTDVSAK
>5ANB_8|Chain H|UBIQUITIN-60S RIBOSOMAL PROTEIN L40|DICTYOSTELIUM DISCOIDEUM (44689)
IEPSLVILARKYKCDKMICRKCYARLHPRAVNCRKKKCGHSNNLRPKKKLLK
>5ANB_9|Chain I|EUKARYOTIC TRANSLATION INITIATION FACTOR 6|DICTYOSTELIUM DISCOIDEUM (44689)
MATRLQYENSCDVGVFLKLTNKYCLVGQCGSKQFLHTVENRLADHIPVVETSIAGTRIVGRLSAGNKNGLLLPNTCTDQELQQIRNSLPDDVVVQRIEEKFSALGNCIATNDYVALVHPDIDRETEEIIADVLGVEVFRQTVSGNVLVGTYCALTNQGALVHPMTSIADQDELSSLLQVPLVAGTVNRGNECVAAGCVVNDWTAIVGADTTATEISVIESIFAL
>5ANB_10|Chain J|RIBOSOME MATURATION PROTEIN SBDS|HOMO SAPIENS (9606)
MSIFTPTNQIRLTNVAVVRMKRAGKRFEIACYKNKVVGWRSGVEKDLDEVLQTHSVFVNVSKGQVAKKEDLISAFGTDDQTEICKQILTKGEVQVSDKERHTQLEQMFRDIATIVADKCVNPETKRPYTVILIERAMKDIHYSVKTNKSTKQQALEVIKQLKEKMKIERAHMRLRFILPVNEGKKLKEKLKPLIKVIESEDYGQQLEIVCLIDPGCFREIDELIKKETKGKGSLEVLNLKDVEEGDEKFE
>5ANB_11|Chain K|ELONGATION FACTOR TU GTP-BINDING DOMAIN-CONTAINING PROTEIN 1|HOMO SAPIENS (9606)
MVLNSLDKMIQLQKNTANIRNICVLAHVDHGKTTLADCLISSNGIISSRLAGKLRYMDSREDEQIRGITMKSSAISLHYATGNEEYLINLIDSPGHVDFSSEVSTAVRICDGCIIVVDAVEGVCPQTQAVLRQAWLENIRPVLVINKIDRLIVELKFTPQEAYSHLKNILEQINALTGTLFTSKVLEERAERETESQVNPNSEQGEQVYDWSTGLEDTDDSHLYFSPEQGNVVFTSAIDGWGFGIEHFARIYSQKIGIKKEVLMKTLWGDYYINMKAKKIMKGDQAKGKKPLFVQLILENIWSLYDAVLKKDKDKIDKIVTSLGLKIGAREARHSDPKVQINAICSQWLPISHAVLAMVCQKLPSPLDITAERVERLMCTGSQTFDSFPPETQALKAAFMKCGSEDTAPVIIFVSKMFAVDAKALPQNKPRPLTQEEIAQRRERARQRHAEKLAAAQGQAPLEPTQDGSAIETCPKGEEPRGDEQQVESMTPKPVLQEENNQESFIAFARVFSGVARRGKKIFVLGPKYSPLEFLRRVPLGFSAPPDGLPQVPHMAYCALENLYLLMGRELEYLEEVPPGNVLGIGGLQDFVLKSATLCSLPSCPPFIPLNFEATPIVRVAVEPKHPSEMPQLVKGMKLLNQADPCVQILIQETGEHVLVTAGEVHLQRCLDDLKERFAKIHISVSEPIIPFRETITKPPKVDMVNEEIGKQQKVAVIHQMKEDQSKIPEGIQVDSDGLITITTPNKLATLSVRAMPLPEEVTQILEENSDLIRSMEQLTSSLNEGENTHMIHQKTQEKIWEFKGKLEQHLTGRRWRNIVDQIWSFGPRKCGPNILVNKSEDFQNSVWTGPADKASKEASRYRDLGNSIVSGFQLATLSGPMCEEPLMGVCFVLEKWDLSKFEEQGASDLAKEGQEENETCSGGNENQELQDGCSEAFEKRTSQKGESPLTDCYGPFSGQLIATMKEACRYALQVKPQRLMAAMYTCDIMATGDVLGRVYAVLSKREGRVLQEEMKEGTDMFIIKAVLPVAESFGFADEIRKRTSGLASPQLVFSHWEIIPSDPFWVPTTEEEYLHFGEKADSENQARKYMNAVRKRKGLYVEEKIVEHAEKQRTLSKNK
>5ANB_12|Chain L[auth N]|26S RIBOSOMAL RNA|DICTYOSTELIUM DISCOIDEUM (44689)
UCCGCCUCACCUUUGUAAGAUUACCCGCUGAACUUAAGCAUAUCAGUAAGCGGAGGAAAAGAAACUAACUAGGAUUCCGUCAGUAACGGCGAGUGAAGACGGAAUAGCCCAAGGUUCAAACCUGGAUCUCUUCGAGGUUAGGUGAUGUGACCUAUGGACUGAUGGAGCCCGCUGUUGUGACUGCUAAUUCCGUUUGGAAUUUCGAGUCGUAGAAGGUGAUAACCCUGUUCGCAGUAUCACAACAGUUGGACUUUGCCAUUAGCUCCACGAGUAGGAAUGUCUGAAAUUGCAUUCUGAAUGGGUGAUAAGAUUCAUCCAAGGCUAAAUAUAUGUUAGGAGAUCGAUAGCAUACAAGUACCGUGAGGGAAAGGUGAAAAGAACUUUGAAAAAAGGUUUAAAAGUAUUUGACACCGUUUAUGUGGAAGCGUUUACUUGGACCCCGAUUAAUGACGUCGGUUUAGCUCUAAUUCUUAGGUGGCCAAAGUAGAGUGUUACGUGCUGAUCAAAAGGUAACGGACAUUUGAUUCAUUGGUUAUCGACGAGGAAGGUACUCUAAAUCGGCCAGUUACUAACGGGUGAGAUCUGAUGUUUAUAAAAUGGGGGAUGAGGCUUAUCGGCUUGCUGGUGGCUCGCUCUCAAUAAUGGAUAUUGGGUUUCAUCAAGAGUGCAAAAUGGUGGCAAUUCACUAUUAGUGGUUAUUAAUUUUGUUUGCGUGGCUUGGCCUUGUCUACAGGUUAUCUUCGGAUGGCUUGUAGCUUUGUUGAACGCGUGGGCUUAAUGUUGUGAUUCUAGUAGCGUUACCAUAUCGUUAGAGUGGGUUCAAUAAAUGUCCCGUCUUGAAACACGGAUCAAGGAGGCCGUUUUGUGUGCGAGUGUAAGAGUAAUUAAAACUCUGACGCGUAUUGAAAGAAAGAAUACUCCAAAAGAUCGUAACUACGGUUACCUUCUGUAAGGAGUGCCCGAAUCAUGAGAACUCUGUUUCGAAAGGAUUUGCGGUUGAGCACCUAGAAUGGGACCCGAAAGGUUGUGAACUAUGCCUGAGGAAGGCGAAGUCAGGGGAAACUCUGAUGGAGGCUUGUCGCAAUGCUGACGUGCAAAUCGCUUGUCUAACUUGGGUAUAGGGGCGAAAGACUAAUCGAACAACCUAGUAGCUGGUUCCUUCCGAAGUUUCCCUCAGGAUAGCUGGAGCAGUAUUCUAGUUCCAUCUUGUAAAGACAAUGAUUAGCAGUUUCGGGGGCGUAAUGCUCUCAGCUGAUUCUCAAACUCUGAACGGGUGGGUAUCAUUUUAAUUCACUUAAUUGGAUUUUAAAAUUAAAUUGCACAUGUGCAAUGAAAAAUAGGAGCUCUUAGUGGGCCAUUUUUGGUAAGCAGAACUGGCGAUGUGGGUUGAACCAAAUAUUGGGAUAAGACGUCUAACAUUCACUAAUAGAUACCACAAAAGGUGUUAGUUCAUUAAGACAGCAGGACGGUGGCCAUGGAAGUCGGUAUCCGCUAAGGAGUGUGUAACAACUCACCUGCCAAAUGGACUAGCCCUGAAAAUGGAUGACGCUAGCAGUGGAUGGUCGAUGCCCAAUCGUUAAAAGAAGUGAUAAUACUUUUAACGUGUAGGAAGGCGUGAAGGUAACGUAGAAGCUUGAAUGUGAAUUCGAGUGGAGUUGUCUUUAGUGCAGAUCUUGAUGGUAGUAGCAAAUAUUCAAAAGAAUUUACUUUGAAGGCCGAAGUGGGGAAGGGUUCCAUAACAAUGGAAUUCACUUAUGGGUGAGUCGAUCCUAAGGUUUGGGUUAACUCUCUCUAAUAAGGUUACUAGGUCAUUGGAUCGAAAGUGAAGGUGGCUUUAACACUAGUGACUUUAUAGGCCGAAAGGGAAGCGGGUUAAAAUUCCUGCACCAUCGAAUGGGAUAUUAGGGUAACCGAUCGUAAUCCGGGACAUCAAUUGGCGGUCGAGGAAGAGUUAUCUUUUCUUGUUAACAUUGUCUUGGGGUCCUCCGAAUCAGGUCAACUGGAGACGAGGAUUCAUCGCACAAUGGAAGAGCACAGUCCUUUGGAUUGGGUCUCGCAUCCGCUAAAUGGUCCUUGAAAACCGGAUUAUGGUAUUUAAUCCUAUUUGGUGUUCGUACCAAUAACCACAUCAGGUCUCCAAGGUGAAUAGCCUCUGGUCAAAUGUAUUAAUGUAGAUAAGGGAAGUCGGCAAAACCGAUCUGUAACUUCGGGAUAAGGAUUGGCUCUAAAGGCUGGUGGAGUGGACAUAUUGGAGUUUGCUAUUUGUUUUUUACUUUUAGGAUGGGCAACUGUUUUGAAGGUUUAAGAUGGGUGGUAAUUCUUUCCAAUGUGAGGGCUUGCUCGUUCUGCUUUACGAUUAACAGCUAAUUUAGAACUGUGACGAUCACCGGGAAUCCAACUGUUUAAUUAAAACAAAGCAUUGCGAUAAGCUUAAAAGCUUUUGACGCAAUGUGAUUUCUGCCCAGUGCUCUGAAUGUCAAAGUGAAGAGAUUCAACCUAGCACGGGUAAACGGCGGGAGUAACUAUGACUCUCUUAAGGUAGCCAAAUGCCUCGUCAUCUAAUUAGUGACGCGCAUGAAUGGAUCAAUGAGAUUCCCACUGUCCCUAACUACUAUACAGCGAAACCACUGCAAGGGGAACGGGCCUUGCAAAAACAGCGGGGAAAGAAGACCCUGUUGAGCUUGACUCUAGUCUGAUAUUGCAUAGUGACCUAAAAGGUGUAGAAUAGGUGGGAGGGGCAACCCGACGGUGAAAUACCACCCCUUUUGGCGUUACUUUGCUAACUUGGAAUAACAGUACCUCAUAAUUCAUUUUAUGAUGGUUUUGGUGAAUAAGCGGAUCAACCACGGGUGAAAUCUGUGCAAAUUGGGCAACUGAUUUGUAUAGCAAAGUAGUCCCUCUGGUCCCGUAUUAUGUCGACCAAGAACAGUUUCAGGUGGGGAGUUUGGCUGGGGCGGCACAUUUGUUAAAAGAUAACGCAAGUGUCCAAAGGCAGGCUCAGUGAGAACAGAAAUCUCACGUAGAGUAAAAGGGCAAAAGCCUGCUUGAUUCUGAUUUUCAGUACUAAUCGGAACUGGGAAACCAGGGCCUAUCGAUCCUUUAUGUGCUUAAAUCUUAACCCUAGAGGUGUCAGAAAAGUUACCACAGGGAUAACUGGCUUGUGGCAGCCAAGCGCUCAUAGCGACGCUGCUUUUUGAUCCUUCGAUGUCGGCUCUUCUUAUCAUUGUGAAGCAGAAUUCACAAAGUGUUGGAUUGUUCACCCACUAACAAGGAACGUGAGCUGGGUUUAGACCGUCGUGAGACAGGUUAGUUUUACCCUACUGUUGUCAAUUGUUUGCGUAAUAGUAGCAUGAUUUAGUACGAGAGGAACUGUCAUGCCGGAUCACUGGUCUGUAGGUUUAUUUGACAAAAUAGUGACCUGCCGCUACCAUCCGUUGGAUAAUGGCUGAACGCCUCUAAGUCAGAAUCCAUUCUAGAAACGCAAACCAAAUGCUUUAGAGUGUGAAUGUUGUAGGUAACAUUAGGUUGUUGGUGGGGGACCACUUUCAACUUUAAACCAUAUGAUUAAUCGCUGUUACACUGCAGUUUCCUUCCGGUUAUUGUGGUGGGUGGCUAAAUUCUAAUUUAUAUCCUCGUUCCGCUCAACUCUUCGAUUGUAGACGACUAUCAAAUGAACUAGGUGCUGUAAGCUUCCGAGUAGCGUUCAGUUACGAGGGGUUGAGGCUUUUCCAUUAGUUCUUU