Skip to main content
. 2013 Jul 10;111(5):410–421. doi: 10.1038/hdy.2013.63

Table 1. Number of identified 5S rRNAs.

Spec.   No. of Cop. No. of A No. of B No. of Q No. of Diff. No. of Blocks No. of Clus.
hsa 1.1f 18 18 0 0 3 1 1
ppy 1.1f 6 5 0 1 4 1 0
mac 1.1f 12 11 0 1 4 1 0
cjc 1.2c 10 6 0 4 7 3 2
tsy 1.6s 15 5 7 3 15 10 0
oga 1.0s 20 8 8 4 17 4 1
mmu 1.2f 42 41 0 1 6 1 0
rno 1.2f 13 6 7 0 13 5 1
dor 2.0s 27 27 0 0 6 2 0
str 1.1s 5 5 0 0 2 1 0
cpo 1.4s 67 57 8 2 53 3 0
opr 0.6s 7 6 1 0 3 2 2
ocu 0.9s 26 25 1 0 9 1 3
tbe 0.9s 8 4 4 0 6 5 1
fca 0.7s 36 30 6 0 18 2 3
cfa 1.2f 10 8 0 2 9 1 1
vpa 1.1s 8 7 1 0 5 3 0
ttr 1.2s 52 52 0 0 15 1 6
bta 1.2f 10 8 0 2 8 1 0
ssc 1.4f 5 3 2 0 5 5 0
eca 1.3f 5 3 2 0 5 5 0
mlu 0.8s 30 24 2 4 18 3 3
pva 1.2s 28 17 0 11 20 1 8
eeu 1.1s 16 16 0 0 5 1 1
sar 1.0s 17 7 9 1 16 10 0
laf 1.0s 45 24 17 4 36 2 1
ete 1.3s 12 10 1 1 12 5 0
pca 1.3s 10 9 1 0 4 2 1
dno 1.1s 7 7 0 0 3 2 0
cho 1.7s 22 5 9 8 17 4 1
mdo 1.3f 18 17 0 1 9 2 0
meu 1.4s 19 2 16 1 19 5 1
oan 1.4f 23 20 3 0 8 3 0
tgu 1.0f 17 16 0 1 16 2 1
gga 1.1f 6 5 1 0 4 3 1
xtr 2.6s 60 48 10 2 41 9 14
tni 1.1f 54 43 6 5 47 3 16
tru 1.0f 42 41 1 0 23 2 7
gac 10.3s 240 2 0 238 93 4 15
ola 1.2f 3 3 0 0 3 2 0
dre 1.2f 3180 3135 0 45 241 2 43
cmi 2.5c 38 36 1 1 17 3 2
pma 2.0c 344 194 125 25 224 1 74
bfl 1.1s 14 14 0 0 3 1 3
cin 1.1f 48 38 4 6 23 2 12
csa 1.1c 272 236 22 14 133 2 7
odi 1.0s 66 1 0 65 24 1 11
sko 1.0s 1560 80 0 1480 1166 16 223
dme 1.0f 215 98 0 117 24 2 44
dsi 1.0s 14 12 0 2 3 1 4
dse 1.0s 28 16 0 12 9 1 5
der 1.0f 40 31 0 9 8 2 4
dya 1.0s 23 21 0 2 4 1 4
dan 0.9s 64 61 1 2 14 1 13
dps 1.1s 50 50 0 0 5 1 4
dpe 1.0s 60 46 7 6 21 2 18
dwi 0.9s 11 11 0 0 4 1 1
dvi 1.8s 69 68 0 1 6 2 12
dmo 0.9s 61 43 0 18 12 2 6
dgr 1.2s 53 53 0 0 9 1 7
aga 1.1s 11 10 1 0 3 3 2
aae 0.7c 143 138 3 2 23 1 3
bmo 1.1s 64 58 0 6 39 3 10
tca 1.0c 199 197 1 1 19 1 5
ame 1.0s 53 48 0 5 24 5 10
nvi 0.9f 34 30 4 0 17 3 3
phu 1.0c 31 22 0 9 14 3 6
api 0.7s 50 44 1 5 28 2 3
dpu 1.5s 114 16 1 97 67 4 26
isc 1.3s 7 2 5 0 7 3 1
cre 0.7c 31 0 0 31 6 1 5
cbr 1.1f 7 0 0 7 1 1 2
cbe 0.5c 24 0 0 24 7 1 5
cel 0.9f 13 0 0 13 2 1 1
cja 0.6c 9 0 0 9 2 1 3
hco 0.2c 212 0 0 212 38 3 22
acn 2.2c 10 0 0 10 1 1 3
ppa 1.0c 65 0 0 65 6 1 12
min 0.6c 26 0 0 26 9 1 3
mha 0.8c 12 4 1 7 11 2 2
bma 1.1c 189 0 0 189 19 1 13
tsp 0.1c 424 1 0 423 97 8 0
sma 0.7s 32 22 5 5 23 7 4
sja 0.7c 11 11 0 0 4 1 0
sme 0.8c 66 63 2 1 15 1 13
hro 0.1c 863 732 0 131 264 1 57
cca 0.1c 1584 1493 0 91 410 1 20
apo 2.5c 4 4 0 0 4 1 0
lgi 1.2s 186 166 3 17 88 4 31
aca 2.6s 11 10 1 0 6 1 1
bgl 4.6c 17 16 0 1 7 1 0
esc 78c 5 3 0 2 5 5 0
apa 25c 36 0 0 36 22 3 1
ami 20c 49 0 0 49 41 2 0
nve 0.6s 708 625 7 76 345 3 68
rsp 0.1c 177 162 10 5 55 2 10
tad 0.4s 8 8 0 0 7 3 2

Abbreviatons: aae, Aedes aegypti; aca, Aplysia californica; acn, Ancylostoma caninum; aga, A. gambiae; ame, A. mellifera; ami, A. millepora; apa, A. palmata; api, Acyrthosiphon pisum; apo, Alvinella pompejana; bfl, Branchiostoma floridae; bgl, Biomphalaria glabrata; bma, Brugia malayi; bmo, Bombyx mori; bta, B. taurus; Blo., number of blocks (groups within an alignment; similar 5S rRNA copies built one block); cbe, Caenorhabditis brenneri; cbr, C. briggsae; cca, Capitella sp; cel, C. elegans; cfa, Canis familiaris; cho, Choloepus hoffmanni; cin, C. intestinalis; cja, C. japonica; cjc, Callithrix jacchus Marmoset; Clus., number of clusters of at least two 5S rRNA-coding regions within 10 000 nt; cmi, Callorhinchus mili; cpo, Cavia porcellus; cre, C. remanei; csa, C. savignyi; dan, Drosophila ananassae; der, D. erecta; dgr, D. grimshawi; dme, D. melanogaster; dmo, D. mojavensis; dno, Dasypus novemcinctus; dor, D. ordii; dpe, D. persimilis; dps, D. pseudoobscura; dpu, D. pulex; dre, D. rerio; dse, D. sechellia; dsi, D. simulans; dvi, D. virilis; Diff., number of different sequences; dwi, D. willistoni; dya, D. yakuba; eca, E. caballus; eeu, Erinaceus europaeus; esc, Euprymna scolopes; ete, Echinops telfairi; fca, Felis catus; gac, Gasterosteus aculeatus; gga, G. gallus; hco, Haemonchus contortus; hro, H. robusta; hsa, H. sapiens; isc, Ixodes scapularis; laf, L. africana; lgi, L. gigantea; mac, M. mulatta; mdo, Monodelphis domestica; meu, M. eugenii; mha, Meloidogyne hapla; min, M. incognita; mlu, Myotis lucifugus; mmu, Mus musculus; nve, Nematostella vectensis; nvi, Nasonia vitripennis; oan, Ornithorhynchus anatinus; ocu, Oryctolagus cuniculus; odi, O. dioica; oga, Otolemur garnettii; ola, O. latipes; opr, O. princeps; pca, P. capensis; phu, P. humanus; pma, P. marinus; ppa, Pristionchus pacificus; ppy, P. pygmaeus; pva, P. vampyrus; rno, R. norvegicus; rsp, Reniera sp; sar, Sorex araneus; sja, Schistosoma japonicum; sko, S. kowalevskii; sma, S. mansoni; sme, Schmidtea mediterranea; Spec., Species; spu, Strongylocentrotus purpuratus; ssc, Sus scrofa; str, Spermophilus tridecemlineatus; tad, T. adhaerens. tbe, Tupaia belangeri; tca, Tribolium castaneum; tgu, Taeniopygia guttata; tni, Tetraodon nigroviridis; tru, Takifugu rubripes; tsp, Trichinella spiralis; tsy, T. syrichta; ttr, T. truncatus; vpa, Vicugna pacos; xtr, X. tropicalis.

We distinguish the total number of candidates (Cop.) to be putatively functional (A), containing variations in sequence or structure (B), and questionable owing to variations in box motifs and secondary structure (Q). The second column depicts the state of each genome assembly: the number is calculated by the known genome size (Gregory, 2012) divided by the number of downloadable nucleotides in finished genomes (chromosomal status), scaffolds or contig.