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1 e that is responsible for replication of the mitochondrial genome.
2 osphorylation (OXPHOS) system encoded by the mitochondrial genome.
3 st for signals of molecular selection on the mitochondrial genome.
4 on of oxidative damage, in particular in the mitochondrial genome.
5 ting a duplicated sequence in the I. pulchra mitochondrial genome.
6 s the only polymerase known to replicate the mitochondrial genome.
7 ng a need for differential expression of the mitochondrial genome.
8 the 99% nonsynthetic nuclear genome, or the mitochondrial genome.
9 ion of the GR with the control region of the mitochondrial genome.
10 gion of the ATP8 and ATP6 genes of the human mitochondrial genome.
11 of coevolution on the mitoribosome with the mitochondrial genome.
12 e to measure the mutation load of the entire mitochondrial genome.
13 related myxozoan, Myxobolus squamalis, has a mitochondrial genome.
14 flowers are male sterile due to the foreign mitochondrial genome.
15 a G to A mutation at nucleotide 11778 of the mitochondrial genome.
16 scribe epiallelic DNA methylation within the mitochondrial genome.
17 nisms due to shared characteristics with the mitochondrial genome.
18 h mitochondria and with mRNAs encoded by the mitochondrial genome.
19 any thrips species and the ancestral insect mitochondrial genome.
20 n genes encoded by either the nuclear or the mitochondrial genome.
21 romosomal STRs and the control region of the mitochondrial genome.
22 lved in transcription and replication of the mitochondrial genome.
23 ifferent genetic properties than that of the mitochondrial genome.
24 , and base oxidation both in the nuclear and mitochondrial genomes.
25 l for fully automatic annotation of metazoan mitochondrial genomes.
26 d dose of tam drove elimination of defective mitochondrial genomes.
27 on (Mammut americanum), based on 35 complete mitochondrial genomes.
28 caused by mutations in both the nuclear and mitochondrial genomes.
29 ene products encoded in both the nuclear and mitochondrial genomes.
30 gest structure in the canyon, have identical mitochondrial genomes.
31 ell as communication between the nuclear and mitochondrial genomes.
32 organisation in comparison to other metazoan mitochondrial genomes.
33 an DNA, from which we assembled two complete mitochondrial genomes.
34 nits are encoded on both the nuclear and the mitochondrial genomes.
35 of tandem repeats among all the known insect mitochondrial genomes.
36 y but also for segregation of the replicated mitochondrial genomes.
37 d mediates the segregation of the replicated mitochondrial genomes.
38 ty to a large database of publicly available mitochondrial genomes.
39 anslating the few essential mRNAs encoded by mitochondrial genomes.
40 and structural variation in the nuclear and mitochondrial genomes.
41 iogeographical history of the honey bee from mitochondrial genomes.
42 vailable samples of heterotrophic flagellate mitochondrial genomes.
43 ein subunits expressed from both nuclear and mitochondrial genomes.
44 But what of the mitochondrial genome?
45 namics can influence the competition between mitochondrial genomes [14-18], yet little is known about
46 ed the genomes (0.04x-7.25x, mean 2.16x) and mitochondrial genomes (20.8x-1,311.0x, mean 482.1x) of e
47 shrimp Synalpheus microneptunus, a complete mitochondrial genome (22X coverage) assembled from short
48 nnaeus, 1758) transcriptome, nearly complete mitochondrial genomes, 430 unlinked high-quality SNPs sh
49 ith the rapid increase of sequenced metazoan mitochondrial genomes, a detailed manual annotation is b
50 f mitochondrial DNA haplogroup variation and mitochondrial genome abundance in the relationship of PM
51 mitochondrial DNA copy number, a measure of mitochondrial genome abundance, mediated 12% of the asso
52 -tree distance matrix for each of the three- mitochondrial genome alignments and greatly outperformed
54 in the history of life - the persistence of mitochondrial genomes also creates conditions for geneti
57 are mosaics of core subunits encoded by the mitochondrial genome and additional nuclear-encoded prot
58 cluded the complete loss of variation in the mitochondrial genome and along long stretches of the nuc
59 ENs to induce breaks in distinct loci of the mitochondrial genome and found that breaks adjacent to t
60 during replication or possibly repair of the mitochondrial genome and how well it tolerates potential
61 being expressed from an alternate ORF in the mitochondrial genome and inhibiting apoptosis through in
62 of ribosomes comprising rRNAs encoded by the mitochondrial genome and mitochondrial ribosomal protein
65 s, we present 15 newly-sequenced sea anemone mitochondrial genomes and a mitogenome-based phylogeny i
66 ic drift led to the expansion of nuclear and mitochondrial genomes and caused the accumulation of del
67 Here, we review the pathways that safeguard mitochondrial genomes and examine the insights gained fr
69 the most definitive mutational landscape of mitochondrial genomes and identifies several hypermutate
71 idimensional, integrated characterization of mitochondrial genomes and related RNA sequencing data.
72 n acts as a stress test for the integrity of mitochondrial genomes and sets the stage for replication
73 r dataset includes 54 previously unpublished mitochondrial genomes and significantly increases the co
75 on and sexual antagonism in the evolution of mitochondrial genomes and the mechanisms that suppress s
76 Coordinating gene expression between the mitochondrial genomes and the nuclear genome is imprecis
78 e identity and length at CSB 2 amongst human mitochondrial genomes and used in vitro transcription to
79 , the complete chloroplast genome, a partial mitochondrial genome, and a nuclear-ddRAD matrix separat
80 , the myxozoan Henneguya salminicola, has no mitochondrial genome, and thus has lost the ability to p
81 accuracy of gene boundaries and upgrades the mitochondrial genome annotation server MITOS to an even
85 New analyses suggest that large, gene-rich mitochondrial genomes are more common than previously th
86 al gene retention, suggesting that gene-rich mitochondrial genomes are not a product of their early d
88 rnal inheritance in most animals and plants, mitochondrial genomes are predicted to accumulate mutati
94 s sperm formation begins, hundreds of doomed mitochondrial genomes are visualized within the two huge
96 sms underlying deletion and depletion of the mitochondrial genome as observed in mitochondrial diseas
98 , a ciliate with high coding capacity of the mitochondrial genome, as the model organism and characte
99 ing model to study adaptive evolution in the mitochondrial genome, as the three extant Old World came
101 esentative M. musculus sequence (the 16.3 kb mitochondrial genome), at 100%, 100%, and 96.7% consensu
102 eration, the precise exchange of nuclear and mitochondrial genomes between strains, and the assessmen
103 uggest that H. salminicola lost not only its mitochondrial genome but also nearly all nuclear genes i
104 active, long OPA1 forms, which stabilize the mitochondrial genome but do not preserve mitochondrial c
105 s revolutionised our understanding of animal mitochondrial genomes but similar advances have not been
106 n limited to the targeted destruction of the mitochondrial genome by designer nucleases(9,10).Here we
107 DNA transfer and enables modification of the mitochondrial genome by DNA transmitted from a sexually
111 eage-specific MTPTs that have contributed to mitochondrial genome complexity and might cause a putati
112 known to occur in plants, but its impacts on mitochondrial genome complexity and the potential for ca
113 recipitation reveals that Stat3 binds to the mitochondrial genome, consistent with direct transcripti
114 our analyses suggest that both species have mitochondrial genomes consisting of multiple linear frag
115 e genome, our de novo assembled O. nubilalis mitochondrial genomes contained 82 intraspecific substit
117 genomes in a species along with nuclear and mitochondrial genomes, contributing to adaptation, diver
118 rovide a robust nexus for nuclear control of mitochondrial genome copy number, since use of common in
119 ation, suggesting that more than half of the mitochondrial genome could be unwound by Twinkle during
120 ch paralogs complicate the interpretation of mitochondrial genome data and confound variant calling.
122 view that most humans harbour only identical mitochondrial genomes, deep resequencing has uncovered u
126 MitosRNAs, small ncRNAs derived from the mitochondrial genome, emerged as an interesting group of
129 /Cas9 platform, could prompt a revolution in mitochondrial genome engineering and biological understa
130 ly, these data identify a dynamic history of mitochondrial genome evolution including intron gain and
131 , genes within the Ajuga reptans (Lamiaceae) mitochondrial genome exhibit unprecedented intragenomic
137 Mitochondrial aprataxin (APTX) protects the mitochondrial genome from the consequence of ligase fail
138 Bison cf. priscus We extracted and sequenced mitochondrial genomes from both this bison and from the
139 ated the first genome-wide sequence data and mitochondrial genomes from eleven archaeological Guanche
140 tigs, including 21 complete or near-complete mitochondrial genomes from formerly under-sampled phylog
142 different picture emerges from the 843 whole mitochondrial genomes from modern Finns analyzed here.
145 hondrial genome reduction, we also assembled mitochondrial genomes from picozoans and colponemids and
148 of nuclear sequence, in addition to complete mitochondrial genomes generated using light-coverage Ill
154 st of its functionalities (i.e., assembly of mitochondrial genomes, heteroplasmic fractions, haplogro
156 rom ultraconserved elements (UCEs) and whole mitochondrial genomes (i.e., mitogenomes) to explore gen
158 -dependent transcriptional regulation of the mitochondrial genome in vivo and are consistent with pre
159 tablished a Drosophila line transmitting two mitochondrial genomes in a stable ratio enforced by puri
160 the dissimilar intrinsic stabilities of the mitochondrial genomes in A. nidulans and P. anserina.
162 a population-based resequencing of complete mitochondrial genomes in Europe and the Middle East, in
163 uencing and strand-specific mapping, we show mitochondrial genomes in humans and other animals are st
166 expression levels of 14 genes encoded in the mitochondrial genome, including missense variants within
168 o simultaneously compare how the nuclear and mitochondrial genomes incorporate and remove ribonucleot
169 undance of some mature RNAs derived from its mitochondrial genome increase during culture starvation
170 both between these organelles and within the mitochondrial genome, indicating a history of recombinat
171 irst time in mammals, we identify a complete mitochondrial genome insertion within the nuclear genome
172 ral role of MMEJ in maintenance of mammalian mitochondrial genome integrity and is likely relevant fo
174 This leads to the physical separation of mitochondrial genomes into different mitochondrial fragm
175 Our findings support the hypothesis that the mitochondrial genome is altered greatly as a result of t
178 e machinery for replication of the mammalian mitochondrial genome is distinct from that for replicati
180 Thus, although functional replacement of the mitochondrial genome is possible, even low levels of het
182 sual features, one of which is their complex mitochondrial genome, known as kinetoplast (k) DNA, comp
183 of mitochondrial respiration or ablation of mitochondrial genomes leads to increased death in latent
187 d the complete plastid genome (plastome) and mitochondrial genome (mitogenome) sequences from three g
189 rogress has suggested that mobile introns in mitochondrial genomes (mitogenomes) can facilitate the r
193 entation, rests in part on expression of the mitochondrial genome (mtDNA) and coordination with expre
194 question is to what extent variation in the mitochondrial genome (mtDNA) contributes to the biologic
197 tudy, we examine the accumulation of somatic mitochondrial genome (mtDNA) mutations in skin fibroblas
198 >u) editing substitutions which occur in the mitochondrial genome (mtDNA) of a given input plant.
201 e two species of the 22 tRNAs encoded by the mitochondrial genome (mtDNA); whether there is tissue-sp
205 y identified, suggesting that introns in the mitochondrial genome of annelids may be more widespread
206 zing mtDNA in human breast CSCs; rather, the mitochondrial genome of CSCs displayed an overall decrea
207 nces and successfully assembled the complete mitochondrial genome of Doedicurus sp., one of the large
208 generation sequencing to obtain the complete mitochondrial genome of Nycteria parasites from African
209 ew dozen ~23-kb maxicircles (homologs of the mitochondrial genome of other eukaryotes) and thousands
210 rial genome for Rhyparochromidae: a complete mitochondrial genome of Panaorus albomaculatus (Scott, 1
212 ra and Isodiametra pulchra, and the complete mitochondrial genome of the acoel Archaphanostoma ylvae.
215 respectively, as well as large parts of the mitochondrial genome of the Forbes' Quarry individual.
216 the kinetoplast, an organelle containing the mitochondrial genome of the parasite (kDNA), with an acc
220 tory of the region, we analyzed the complete mitochondrial genomes of 52 ancient skeletons from prese
222 RNA, 16S rRNA, and tRNA (val) regions of the mitochondrial genomes of daphniids from 186 global sites
225 sequenced and annotated the nearly complete mitochondrial genomes of four species of each these trib
228 g that the massively expanded and fragmented mitochondrial genomes of S. noctiflora may have entered
230 ledge of the structure and expression of the mitochondrial genomes of these human and animal pathogen
233 eritance at two levels, eliminating paternal mitochondrial genomes or destroying mitochondria deliver
234 ncestral plastid genomes were transferred to mitochondrial genomes over the past 10 million years and
235 umber of mitochondria per cell and number of mitochondrial genomes per mitochondrion, is an indirect
238 ompensate for the deleterious alleles in the mitochondrial genome, presents a potential solution to t
239 lagellate Diplonema papillatum (Euglenozoa), mitochondrial genome rearrangements have resulted in nea
241 y on the genes encoding TFAM, which controls mitochondrial genome replication and transcription, and
242 ndicate a direct role for G4 perturbation in mitochondrial genome replication, transcription processi
245 ion factor MOC1 and aberrantly expresses the mitochondrial genome, resulting in enhanced photosynthet
247 mble and interpret a data set of 143 mammoth mitochondrial genomes, sampled from fossils recovered fr
249 provides a generalizable pipeline for whole mitochondrial genome sequence acquisition adaptable to a
252 The HmtDB resource hosts a database of human mitochondrial genome sequences from individuals with hea
255 g gDNA derived from P. falciparum Plasmodium mitochondrial genome sequences were subsequently reconst
256 augment standard exome sequencing analysis: mitochondrial genome sequencing analysis, exome sequenci
257 hilst highlighting the necessity of complete mitochondrial genome sequencing in the diagnostic work-u
258 transcription at non-canonical sites in the mitochondrial genome, shedding new light on the importan
261 , highlights cross-talks between nuclear and mitochondrial genome stability, and shows how strains ha
264 These evolutionary trends correlate with the mitochondrial genome, suggesting shared underlying mecha
266 reannotated nine open reading frames in the mitochondrial genome that code for mitoribosomal protein
267 harness naturally occurring mutations in the mitochondrial genome that impair male fertility while ha
268 most AT-rich genomes known save for a single mitochondrial genome that is merely bloated with AT-rich
269 dent evolution between species has generated mitochondrial genomes that are extremely diverse, with t
270 ial diseases is in either the nuclear or the mitochondrial genome, the typical downstream effect is d
271 ing and intergenic areas of both nuclear and mitochondrial genomes, the ability to identify structura
272 eractions between Wolbachia and host nuclear/mitochondrial genomes, the interaction between invasion
274 in products of the trypanosomatid parasites' mitochondrial genomes, the total expressed protein reper
277 e transfer of ancestral plastid genomes into mitochondrial genomes to generate mitochondrial plastid
278 of the necessary genes from both nuclear and mitochondrial genomes to produce functional respiratory
279 the evolutionary history of this group using mitochondrial genomes to reconstruct phylogenetic and bi
280 le in both expression and replication of the mitochondrial genome, transcription initiation by mtRNAP
281 findings indicate that random segregation of mitochondrial genomes under uniparental inheritance can
283 ns and colponemids and re-annotated existing mitochondrial genomes using hidden Markov model gene pro
284 about how the transcriptional regime of the mitochondrial genome varies across individuals and tissu
289 communication exists between the nuclear and mitochondrial genomes, we hypothesized that there are di
290 s, which pair nuclear genomes with different mitochondrial genomes, we previously showed that mitocho
291 apaya chloroplast genome and its nuclear and mitochondrial genomes were sequenced, and no chloroplast
294 the 16 nuclear chromosomes, but not for the mitochondrial genome, whose reconstruction still represe
295 er cells with advantageous levels of damaged mitochondrial genomes will selectively proliferate to fa
296 P. mediterranea harbors a highly compact mitochondrial genome with overlapping mitochondrial tRNA
297 itochondrial genome arising amid the pool of mitochondrial genomes within a cell must compete with ex
300 ated a large dataset comprising the complete mitochondrial genomes, Y-chromosome markers, and genotyp