76) Gene order is equivalent to that found in |
77) Gene order resembles that of basal arthrop |
78) Its gene order and arrangement are identical t |
79) Its gene order and arrangement are identical t |
80) The gene order and arrangement is similar to t |
81) in length with the typical mitochondrial gene order and composition in vertebrates. |
82) The gene order and composition of L. |
83) The gene order and composition of R. |
84) The gene order and composition of T. |
85) The gene order and composition of T. |
86) Its gene order and content are identical to th |
87) strobilina in gene order and contents, but differs from |
88) stigmatias with emphasis on the arranged gene order and gene feature with published |
89) The gene order and molecule structure are simi |
90) Its gene order and orientation are identical t |
91) Its gene order and orientation are identical t |
92) and 13 protein coding genes with the same gene order and structure as those of other |
93) The gene order and structure of the genome wer |
94) nes and 1 control region with the typical gene order and transcriptional direction i |
95) s and one control region with the typical gene order and transcriptional direction o |
96) libertina displayed novel gene order arrangement compared with publi |
97) region, with the genome organization and gene order being identical to that of the |
98) The gene order differs from the standard gene |
99) ano (Balanidae), suggesting non-conserved gene order even at intrafamilial level. |
100) hose found in other vertebrates, with the gene order identical to that of typical ve |
101) T-rich control region with the typical gene order in vertebrate mitogenomes. |
102) s and one control region with the typical gene order in vertebrates. |
103) The gene order is identical to that of the put |
104) The gene order is identical to those of descri |
105) he genomic composition, organization, and gene order of C. |
106) The gene order of O. |
107) The gene order of P. |
108) The orientation and gene order of the X. |
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