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1 ustered in two loci within the 23-bp Candida telomere repeat.
2 position, but also the rate of synthesis, of telomere repeats.
3 independent of its activity in synthesizing telomere repeats.
4 r promoting degradation of dsDNA in and near telomere repeats.
5 in its intrinsic RNA component to synthesize telomere repeats.
6 tromere, 45S ribosomal DNA (rDNA), knob, and telomere repeats.
7 riction fragment length and in the number of telomere repeats.
8 rays, a selectable marker and terminal human telomere repeats.
9 ence RGGG, a sequence found in a majority of telomere repeats.
10 - geneous alphoid DNA retrofitted with human telomere repeats.
11 iggered apoptosis followed by degradation of telomere repeats.
12 ns its own RNA template for the synthesis of telomere repeats.
13 tion independently of the orientation of the telomere repeats.
14 to the C-rich strands of the subtelomere and telomere repeats.
15 , and underlying evolutionary transitions in telomere repeats.
16 s for CENP-B, and short stretches of perfect telomere repeats.
17 so detect circular DNA with extrachromosomal telomere repeats.
18 ment (GGATGT) that is shared by many Candida telomere repeats.
19 Retrotransposons or MoTeRs) inserted in the telomere repeats.
20 ted by release of Sir3 specifically from the telomere repeats.
21 ome and are associated with intrachromosomal telomere repeats.
22 c residues to interact with species-specific telomere repeats.
23 e of Cdk1 completely blocked the addition of telomere repeats.
25 port extensive basecalling induced errors at telomere repeats across nanopore datasets, sequencing pl
33 nzymatic activity is assayed by means of the telomere repeat amplification protocol (TRAP) assay.
36 e assessed by using quantitative PCR and the telomere repeat amplification protocol from PBMCs and en
37 cies by using a modification of the one-tube telomere repeat amplification protocol, although better
40 circle and a DNA polymerase gives a positive telomere-repeat amplification protocol assay result for
41 PCR method and telomerase activity by TRAP (Telomere-Repeats Amplification Protocol) assay in periph
42 ensions of chromatin function-the vertebrate telomere repeat and the promoter regions of many Schizos
44 ual role at telomeres, maintaining tracts of telomere repeats and forming telomeres de novo on broken
45 measured as the ratio between the number of telomere repeats and that of a single-copy nuclear-hemog
47 possessed chromosome ends lacking detectable telomere repeats, aneuploidy, and chromosomal abnormalit
50 DNTF can be instigated by the insertion of a telomere repeat array (TRA) into the host genome, which
57 ced by the 'capture' or de novo synthesis of telomere repeats at double-stranded breaks and by the ca
58 is the length, purity, or orientation of the telomere repeats at these potentially destabilizing inte
59 one such folding competent substrate, human telomere repeat binding factor (hTRF1), which is bound t
60 e we use NMR spectroscopy to study the human telomere repeat binding factor 1 (hTRF1) in complex with
63 By fusing the KillerRed chromophore with the telomere repeat binding factor 1, TRF1, we developed a n
64 re we demonstrate that PARP1 associates with telomere repeat binding factor 2 (TRF2) and is capable o
65 a screen for potential interactions between telomere repeat binding factor 2 (TRF2) and proteins inv
67 We observed extra-telomeric binding of the telomere repeat binding factor TRF2 within the promoter
69 nal region of NBS1 interacts directly with a telomere repeat binding factor, TRF1, by both yeast two-
73 that has been implicated along with several telomere repeat binding factors in the regulation of Eps
79 ain to bind diverse proteins, including TRF (telomere-repeat binding factor)-1, IRAP (insulin-respons
80 pecifically with defective expression of the telomere repeat- binding factor TRF2, telomere shortenin
83 insertion of the 3' overhang facilitated by telomere repeat-binding factor 2 (TRF2) into telomeric D
85 demonstrate that a non-telomeric isoform of telomere repeat-binding factor 2 (TRF2-S) is a novel RBP
86 1 physically and functionally interacts with telomere repeat-binding factor 2 that in turn regulates
87 re elongation is negatively regulated by the telomere repeat-binding protein Rap1p, such that a narro
90 e that replication can initiate within human telomere repeats but was most frequently accomplished by
91 -transcribe through selected barriers in the telomere repeat by acting as an allosteric activator and
92 transcriptase that extends one strand of the telomere repeat by using a template embedded in an RNA s
93 gth is maintained by the de novo addition of telomere repeats by telomerase, yet recombination can el
95 ed ends of broken chromosomes, which contain telomere repeats, can enter the bouquet; (b) ring chromo
96 ly, suggesting that maintenance of taz1Delta telomere repeats cannot be sustained through semi-conser
100 Without telomerase's ability to synthesize telomere repeats, chromosome ends shorten progressively,
102 ts in elevated subtelomeric RNA levels while telomere-repeat containing transcript levels remain repr
103 or rap1(+) leads to increased levels of both telomere repeat-containing and subtelomeric transcripts.
108 ccumulation of telomere-associated noncoding telomere repeat-containing RNA (TERRA) is required for t
114 on between average relative telomere length, telomere repeat copy number to single gene copy number (
115 mean natural logarithm-transformed ratio of telomere repeat copy number to single gene copy number 0
116 ative PCR method for T/S ratio (the ratio of telomere repeat copy numbers to single-copy gene numbers
117 nsisting of two conserved hexameric S. pombe telomere repeats, d(GGTTACGGTTAC), with an affinity appr
118 of nucleotides to the 3'-end of the TTTTGGGG telomere repeat decreases the level of alpha binding by
119 aintain telomeres by processive synthesis of telomere repeat DNA at their 3'-ends, using an integral
125 t ORC subunits can be affinity purified with telomere-repeat DNA along with other components of the k
127 pendence of the CD spectra of the vertebrate telomere repeat DNAs is distinctly different from that o
128 subtelomeric CTCF-binding sites to generate telomere repeat-encoding RNA (TERRA), but the role of tr
130 ovel exponential isothermal amplification of telomere repeat (EXPIATR) assay--a sensitive, simple, an
131 icant changes in overall enzyme activity and telomere repeat extension rate, but have little effect o
133 vitro inhibits ORC2 recruitment and remodels telomere repeat factor (TRF) binding at the dyad symmetr
134 h hyperacetylation of histone H3 and loss of telomere repeat factor 2 (TRF2) binding at the EBV origi
136 eral telomere-associated proteins, including telomere repeat factors 1 (TRF1) and 2 (TRF2), subunits
138 s demonstrated to be TTAGGG, the most common telomere repeat found in organisms from the animal and f
140 mere 29-base pair elements that separate the telomere repeats from their proximal telomere-associated
141 ng of various DNA strands, including a 22-nt telomere repeat G-quadruplex, a 26-nt therapeutic aptame
142 ucleoprotein enzyme complex that synthesizes telomere repeats, has been associated with acquisition o
143 locytic leukemia bodies and extrachromosomal telomere repeats; however, no alterations in the rate of
144 ization analysis showed that misrejoining of telomere repeats (i.e., chromosomes joined end to end at
145 y, and that the recent acquisition of TTAGGG telomere repeats in Asparagus appears to have co-evolved
146 ulties in accurately measuring the length of telomere repeats in chromosomes and cells have diverted
148 nucleoprotein (RNP) complex that synthesizes telomere repeats in tissue progenitor cells and cancer c
153 h and support a model in which Rif1 measures telomere repeat length to ensure that telomere replicati
154 heir abilities to bind telomeric DNA, affect telomere repeat length, participate in telomeric DNA rep
156 In cells lacking telomerase, the rate of telomere-repeat loss appeared to be inversely proportion
157 revisiae, Cdc13 binds single-stranded G-rich telomere repeats, maintaining telomere integrity and len
158 sely flank the inverted arrays of degenerate telomere repeats marking the fusion site are duplicated
159 oduct during processive addition of multiple telomere repeats modulates the kinetics of telomerase ca
160 riments, including de novo identification of telomere repeat motifs and repeat types, and also descri
162 NAs is distinctly different from that of the telomere repeats of Tetrahymena and Oxytricha as well as
163 The circular dichroism, CD, spectra of the telomere repeats of vertebrates, d(TTAGGG), indicate tha
167 BLM co-localizes and complexes with the telomere repeat protein TRF2 in cells that employ the re
169 ERRA transcription acts in cis to facilitate telomere repeat replication and chromosome stability.
174 n = 6, 7, and 8) was each added to the human telomere repeat sequence d(T(2)AG(3))(4) and examined wi
177 hat FISH analysis using the Arabidopsis-type telomere repeat sequence probe clarified and confirmed t
179 a strong preference for the canonical plant telomere repeat sequence TTTAGGG with no detectable bind
181 ection through sequestration of the terminal telomere repeat sequence within a lariat T-loop structur
183 addition to facilitating the maintenance of telomere repeat sequences via HR-dependent mechanisms, a
184 a ribonucleoprotein complex that synthesizes telomere repeat sequences, is linked to cell immortaliza
185 is process is dependent on the shortening of telomeres, repeated sequences at the ends of the chromos
186 n or hypomorphic cell lines caused a loss of telomere-repeat signal intensity and the appearance of d
187 ts measured for sequence permutations of the telomere repeat spanned the range of 55-1400 nM, with Ec
188 t when binding to the duplex subtelomere and telomere repeats, ST-2 may act as a protein bridge with
190 is recruited to telomeres and activated for telomere repeat synthesis by the telomere shelterin prot
194 Using linear constructs terminating in the telomere repeat, T2AG3, human telomere DNA was shown to
195 higher affinity to G4 DNA formed from yeast telomere repeats than to single-stranded DNA of the same
196 riptase (hTERT), and functions to synthesize telomere repeats that serve to protect the integrity of
197 ependent RNA polymerase, suggesting that the telomere repeats themselves serve as promoter sites; mul
198 that fission yeast condensin accumulates at telomere repeats through the balancing acts of Taz1, a c
200 ere function through the de novo addition of telomere repeats to chromosome ends, and is reactivated
203 nduces cutting of a 'proto-telomere' bearing telomere repeats to rapidly form a new stable chromosoma
205 MAC vectors containing functionally defined telomere repeats together with candidate centromere and
208 with no detectable binding to hexanucleotide telomere repeat TTAGGG found in vertebrates and some pla
209 g-lived radical cations are detected for the telomere repeat TTAGGG in single-stranded configuration,
210 It binds specifically to the double-stranded telomere repeats (TTAGGG) and more tightly to the subtel
211 eposited 800 bp of the functional vertebrate telomere repeat, TTAGGG, in two orientations in the seco
213 telomeres in vivo and recognizes the unusual telomere repeat unit with high affinity and sequence spe
216 Integration of the HHV-6 genome into TTAGGG telomere repeats was confirmed by additional methods and
218 continuity of the canonical (5'-TTAGGG-3')n telomere repeats, which affects the binding of shelterin
219 54mer oligonucleotide composed of nine human telomere repeats, which was not possible to assemble by