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1 s in the mature cochlea cannot spontaneously regenerate.
2 mal skeletal muscle with retained ability to regenerate.
3 d myelin at 3-5 days after lesion when axons regenerate.
4 crop species such as cotton are difficult to regenerate.
5 g time for the patient's liver to repair and regenerate.
6 e disassembly, rendering the heart unable to regenerate.
7 ors that had to be continuously exchanged or regenerated.
8 ransfer, the free borazine is quantitatively regenerated.
9  interference in which the wrong tissues are regenerated.
10                      In the Atlantic Forest, regenerating 6,452 ha of forest would create >251,000 ha
11                In the Eastern Arc Mountains, regenerating 8,134 ha of forest would create >316,000 ha
12 w-derived mesenchymal stem cells (mBMSCs) to regenerate a proximally amputated digit tip.
13 -detach its tail to avoid predation and then regenerate a replacement.
14 imate the increase in species persistence by regenerating a forest connection 1 km in width among the
15 lex functional processing is possible within regenerated adult retina and offers a system for the fut
16 odistal axis of caudal fins of uninjured and regenerating adult zebrafish.
17 dimensions, because of its unique ability to regenerate after complete dissociation into individual c
18  that connect the eyes to the brain, fail to regenerate after damage, eventually leading to blindness
19 ough the thymus has a remarkable capacity to regenerate after injury, endogenous thymic regeneration
20 p to understand why mammalian neurons do not regenerate after injury.
21           Axons in the mammalian CNS fail to regenerate after injury.
22           The adult human heart is unable to regenerate after various forms of injury, suggesting tha
23 erminants of muscle progenitor impairment to regenerate aged muscles are currently unclear.
24  the alkylidene-free ruthenium complexes may regenerate alkylidene via dinuclear ruthenium activation
25 ckly activated to replenish matrix cells and regenerated all concentric layers of HFs, demonstrating
26          The biosensor surface can be easily regenerated, allowing the detection of GST with the very
27                           Zebrafish innately regenerate amputated fins by mechanisms that expand and
28                   Salamanders are capable of regenerating amputated limbs by generating a mass of lin
29 t pancreatic alpha cells can be continuously regenerated and converted into beta-like cells upon ecto
30                                 The foam was regenerated and reused multiple times by simple compress
31 S. EPA advisory level (70 ng L(-1)), and was regenerated and reused multiple times by washing with Me
32  within the ependymal layer of the original, regenerating and fully regenerate spinal cord represent
33                             Remarkably, both regenerating and half-animals showed very similar surviv
34                             We observed that regenerating and necrotic muscle fibers in muscle biopsy
35  clarify how the nervous system develops and regenerates, and may identify areas of therapeutic inter
36 ea mediterranea, a model organism capable of regenerating any and all of its adult tissues.
37 mesodiencephalic dopamine neurons capable of regenerating appropriate connections for cell therapy.Mi
38  new approaches for application of miRNAs to regenerate articular cartilage.
39       Lastly, injured hearts failed to fully regenerate as evidenced by persistent scarring and reduc
40  and tissues display the ability to heal and regenerate as needed for normal physiology and as a resu
41 Demonstrating direct synaptic integration by regenerated axons and distinguishing its function from i
42 of Schwann cells allows them to re-myelinate regenerated axons following injury and we show that re-m
43                     Both the total number of regenerating axons and the intraepidermal nerve fiber de
44 egans mutants lacking unc-75 or its targets, regenerating axons form growth cones, yet are deficient
45 elin-associated growth inhibitors, and guide regenerating axons to their targets.
46 tion in separating BCP-ALL cells from normal/regenerating BCP cells in multidimensional principal com
47                     Altogether, we find that regenerated BCs reinstate some, but not all, major featu
48 tly recovering from human land use, and this regenerating biomass now represents the largest carbon (
49  as retinal function, for a subpopulation of regenerated bipolar neurons (BPs).
50 f the R-Ras-Akt signaling for the patency of regenerating blood vessels.
51 receptor TNFR1 is selectively upregulated in regenerating blood vessels.
52 sodermal iPSC-derived progenitors (MiPs) can regenerate both striated muscle types simultaneously in
53                                              Regenerated BPs had complex morphologies similar to thos
54 ored in regenerated retinas, suggesting that regenerated BPs recover accurate input pathways from sur
55                                     Although regenerated BPs were reduced in numbers, BP dendritic sp
56                 The neonatal mouse heart can regenerate, but only during the first week of life.
57                      Injured skeletal muscle regenerates, but with age or in muscular dystrophies, mu
58              The fouled fibers can be easily regenerated by backwash of water with a flux recovery of
59                     Simultaneously Fe(3+) is regenerated by chemical oxidation of Fe(2+) by oxygen (a
60 und to be irreversible, SIFSIX-3-Ni could be regenerated by heating and can therefore be recycled.
61  precisely defined, processively copied, and regenerated by release of single-stranded product DNA.
62   Scales are rooted in soft tissues, and are regenerated by specialized cells.
63 alysis revealed slow and stalled flow in the regenerated capillaries and extensive arteriolar-venular
64 neurons have a poor ability to spontaneously regenerate, causing persistent functional deficits after
65                                           We regenerated cells stably expressing ectopic wild-type an
66 Positional memory is a property that enables regenerating cells to recall spatial information from th
67                                In this work, regenerated cellulose immuno-affinity membranes were dev
68 t hosts multiple windows containing a porous regenerated-cellulose membrane with a molecular-weight c
69 esults demonstrate, for the first time, that regenerating CNS axons can be remyelinated and reassembl
70 ystem was developed to capture, separate and regenerate CO2 for biogas upgrading without external sup
71 n extraordinary ability among vertebrates to regenerate complex body parts.
72            Understanding how and why animals regenerate complex tissues has the potential to transfor
73 rove substantial variation in the density of regenerating conifers.
74 ation potential, stem cells might be used to regenerate damaged liver tissue.
75                                    Zebrafish regenerate damaged myocardial tissue very effectively.
76 ulp stem cells (DPSCs), which are capable of regenerating dentin.
77  teeth represents a generalized challenge to regenerate diseased pediatric tissues that must grow to
78                        RNA sequencing of the regenerated donor Lin(-) SCA-1(+) KIT(+) (LSK) cells sho
79 uded, in addition to beta-catenin depletion, regenerating dorsal and ventral half-embryos, lithium ch
80 issue engineering is to repair, replace, and regenerate dysfunctional tissues to restore homeostasis.
81  show that the Wnt5a-haploinsufficient niche regenerates dysfunctional HSCs, which do not successfull
82 ial for the development of a new approach to regenerate enamel structure and properties.
83  proteins at the wound margins and/or in the regenerating epidermis.
84 understanding how homeostasis is achieved in regenerating epithelia.
85 e propose that Msx-transduced cells that can regenerate epithelial and mesenchymal tissues may potent
86 n as well as self-renewal, thus specifying a regenerating epithelial pattern.
87 -term maintenance of stem cell (SC) pools in regenerating epithelial tissues.
88 rats, grafts show survival and maturation of regenerated epithelium.
89 ts containing proliferating cardiac myocytes regenerate even extensive injuries, whereas adult hearts
90 iver is the only organ in mammals that fully regenerates even after major injury.
91                        Molecular analysis on regenerated events showed a selection efficiency of 97
92 al pigments in vertebrate photoreceptors are regenerated exclusively through enzymatic cycles.
93                                          The regenerated extractor nanoparticles maintained their cap
94 enitor production and less cell death in the regenerating eye.
95 studies with C57BL/6 mice that express human regenerating family member 3 alpha (hREG3A) in hepatocyt
96 ther transgenic (TG) expression of the human regenerating family member 3 alpha gene (REG3A) alters t
97 h was affected by the number and function of regenerated fibers and mechanoreceptors.
98 p between sensory modalities and function of regenerated fibers is uncertain.
99     Connective tissue is involved in driving regenerating fibers in a single direction, outlining for
100 ll fibers corresponding to both atrophic and regenerating fibers were observed.
101 mputation stimulates serotonin production in regenerating fin fibroblasts, yet targeted tph1b mutatio
102 that distribute across the entire lengths of regenerating fin rays.
103  we show that after epilation of mice, McSCs regenerate follicular and epidermal melanocytes, resulti
104 he inability of the adult mammalian heart to regenerate following injury represents a major barrier i
105 e remarkable ability of peripheral nerves to regenerate following injury.
106 Remarkably, alpha-RGCs, which preferentially regenerate following treatments such as Pten deletion, w
107                                      Rapidly regenerating forest among fragments is important, becaus
108 ere specified at the pre-existing midline of regenerating fragments, even when this location deviated
109  mouse that during wound healing, adipocytes regenerate from myofibroblasts, a cell type thought to b
110 stain vision, 11-cis-retinal is continuously regenerated from its all-trans conformation through a se
111 , HEP in the upper phase is capable of being regenerated from its sulfite/sulfate heat stable salt, w
112 trate that these cells can, in principle, be regenerated from multiple endogenous sources using signa
113 ne end of each crystal is immobilized in and regenerated from silicone, and the other functional end
114 are free-living flatworms capable of rapidly regenerating from small body fragments [1].
115 ty of the adult olfactory epithelium (OE) to regenerate fully both neurosensory and nonneuronal cell
116                     Lung tissue can robustly regenerate functional alveolar units after injury, but t
117  few CD26-positive cells were present in the regenerated gingival wounds.
118 ds to alpha-ketoglutarate (alpha-KG) thereby regenerating glutamate, which functions in part to suppo
119 l network control the transient formation of regenerating GMP clusters.
120 abundance and the availability of ATP, which regenerates guanosine triphosphate (GTP), powers ribosom
121 subset of supporting cells can spontaneously regenerate hair cells after ablation only within the fir
122 -filled adipocytes in large skin wounds that regenerate hair follicles, suggesting a new source of ad
123 d skeletal muscle has a profound capacity to regenerate, heart muscle, at least in mammals, has poor
124 cell cycle and proliferation in embryonic or regenerating hearts.
125 s unclear whether other liver cell types can regenerate hepatocytes.
126 duced up-regulation of DDR messenger RNAs in regenerating hepatocytes.
127 NT5A in the bone marrow niche is required to regenerate HSCs and leukemic cells with functional abili
128 levant pulpal revascularization treatment to regenerate human dental pulp tissues.
129 In targeted mouse knockouts and in long-term regenerated human mosaic epidermis in vivo, epidermal PR
130  blood cells metabolize TCA intermediates to regenerate important cofactors, such as ATP, NADH, and N
131 shown that retinal ganglion cell (RGC) axons regenerate in the lizard Gallotia galloti.
132 ts in adhesion, migration and homing of HSCs regenerated in a Wnt5a-haploinsufficient microenvironmen
133 trophysiologically functional neurons can be regenerated in axolotls, but challenge prior assumptions
134      Functionally, corneal epithelium can be regenerated in cultures from central and limbal explants
135 nt amputations of the morphologically normal regenerates in water result in the same ratio of double-
136 ressively separated pObs pools then continue regenerating independently to collectively re-form a now
137  can transiently proliferate upon injury and regenerate injured muscles, but continually decline duri
138 utically exploiting endogenous stem cells to regenerate injured or diseased tissue may circumvent the
139               Here we report that bovine Rh, regenerated instead with a six-carbon-ring retinal chrom
140 d cord only low levels of serotonergic axons regenerated into the graft, with no evidence of re-entry
141 defect microenvironment, FCSCs engrafted and regenerated intramembranous bone.
142 tic beta cells, inducing human beta cells to regenerate is difficult.
143                    How quickly these forests regenerate is now a central concern for both conservatio
144  secretory leukocyte protease inhibitor, and regenerating islet-derived protein 3 beta/pancreatitis-a
145 on of antibacterial human beta defensin 2 or regenerating islet-derived protein 3-alpha.
146 nity, prevented lymphocyte infiltration into regenerated islets, and sharply elevated the expression
147 troscopy to show that an adhesin protein can regenerate its thioester in the absence of pulling.
148 ane protein DsbB reoxidizes DsbA's cysteines regenerating its activity.
149 k inhibition of the renin-angiotensin system regenerated kidney vasculature and normalized Tgf-beta a
150 l to enhance material-based interventions to regenerate large scale, traumatic injuries.
151  multiple low frequency cell lineages to the regenerating limb at once.
152                  Our comparisons reveal that regenerated limbs are high fidelity replicas of the orig
153 y of each lineage within amputated and fully regenerated limbs.
154 e the only living tetrapods capable of fully regenerating limbs.
155 ma agonist) or truncate (RARbeta antagonist) regenerating limbs.
156 the three-membered family of phosphatases of regenerating liver (PRL) are infamously oncogenic member
157 ural similarity to the human phosphatases of regenerating liver (PRL-1, -2, and -3) that regulate the
158                              Phosphatases of regenerating liver (PRLs), the most oncogenic of all pro
159 cal steatosis when lost, whereas its role in regenerating liver remains unknown.
160                                           In regenerating liver, hepatocytes accumulate lipids before
161 KLF6 expression is induced in ALF and in the regenerating liver, where it activates autophagy by tran
162                                              Regenerating livers from XBP1-knockdown mice expressed h
163                                           In regenerating livers, XBP1 deficiency leads to endoplasmi
164 , mitotic index, and mass restoration in the regenerating livers.
165 lls expanded sooner in AhR-/- than in AhR+/+ regenerating livers.
166 ls are limited in their natural abilities to regenerate lost body parts.
167 myocyte (CM) division after tissue damage to regenerate lost heart muscle.
168 or example, the neonatal heart is capable of regenerating lost myocardium, and the adult heart is cap
169                     The releasable conjugate regenerated Luminespib activity and induced mitochondria
170 artial obstruction of the vasculature in the regenerated lung.
171 , thereby contributing to EC survival in the regenerated lungs.
172 l proliferation was significantly reduced in regenerating lungs from mice deficient for endothelial F
173 NA and protein, decreasing MMP14 activity in regenerating lungs.
174 (high) cells are enriched for cells that can regenerate mammary glands in secondary transplants.
175 ralleled among tetrapods in their ability to regenerate many structures, including entire limbs, and
176 res that can be used as soft and hard tissue-regenerating materials, biosensors, and energy-generatin
177 ) located in the bulge of hair follicles can regenerate mature melanocytes for hair and skin pigmenta
178 nd compared their gene signatures to that of regenerated mature epidermal melanocytes from NBUVB-trea
179             The water and solute flux of the regenerated membrane was very similar to that of the ori
180                     To determine whether the regenerated microcirculation could regulate flow, the mu
181  Whether these network attributes exist in a regenerated microcirculation is unknown, and methodologi
182                               The ability to regenerate missing body parts exists throughout the anim
183 ation after crush of Ia afferent synapses on regenerating motoneurons and decreased presynaptic inhib
184                              Here, using the regenerating mouse digit tip as a mammalian model, we de
185 mic and nuclear fractions from normal versus regenerating mouse liver.
186 d clones using sparse lineage tracing in the regenerating mouse olfactory epithelium.
187                Adult stem cells maintain and regenerate multiple mature cell lineages in the olfactor
188                  The sensor surface could be regenerated multiple times which significantly reduces t
189  division planes, causing disorganization of regenerated muscle fibers.
190 l mice demonstrate multiple degenerating and regenerating muscle fibers, increased central nuclei, el
191 tify several 'young' systemic factors in old regenerating muscle of the heterochronic parabiotic part
192 irement for mitochondrial quality control in regenerating myocardium.
193               This interaction is present in regenerating myofibers of patients with Duchenne muscula
194 e substrates for endogenous esterases, which regenerate native protein.
195 which the vast majority of the world's flora regenerate naturally, a framework for accurately predict
196 ia a beta-hydride elimination of 1a or 1b to regenerate NBD.
197 njured nerves and (2) remyelinating cells in regenerated nerves.
198 o generate the typically short internodes of regenerated nerves.
199 ng to form the typical short myelin cells of regenerated nerves.
200                          Loss of RelA in the regenerating neuroepithelium perturbs the homeostasis be
201 Our data reveal the functional property of a regenerating neuron.
202  also can make it difficult to replenish and regenerate neurons.
203                                     Notably, regenerated neurons acquire functional electrophysiologi
204   Existing research does not address whether regenerated neurons of adults successfully reconnect wit
205    These results support the hypothesis that regenerated neurons of the adult zebrafish retina are ca
206 jury, and Muller glia (MG) are the source of regenerated neurons.
207 count for tumor recurrence and metastasis by regenerating new tumors.
208 gonist (IL-15 SA, IL-15/IL-15Ralpha complex) regenerated NK and mCD8(+) T cells and re-established mo
209 nt, but resulted in exacerbated apoptosis of regenerated oligodendrocytes in central nervous system (
210 reased apoptosis in vitro and in skin grafts regenerated on mice, which was correlated with reduced c
211                           Full digit tip was regenerated only in the MSX1/2 group and was related to
212 hors show that mammalian photoreceptors also regenerate opsin pigments in light through photoisomeriz
213 rd the need for exogenous strategies to help regenerate or even replace thymic function.
214 se for treating the malignant tissue growth, regenerating organs and engineering new-age medical devi
215 ilution orthotopic xenografts of these BCSCs regenerated original patient tumor histology and gene ex
216                               Ox2 is used to regenerate Ox1 , which is capable of initiating etching
217 potential for developing novel approaches to regenerating pancreatic beta-cells.
218  FACS-sorted endothelial cells isolated from regenerating PDGFb-iCre/Foxf1 (fl/+) and control lungs w
219    INTERPRETATION: The recovered function of regenerated peripheral nerve fibers and reinnervated mec
220                                 We show that regenerating planarians' normal anterior-posterior patte
221 nder selection and molecular analyses on the regenerated plants demonstrate the efficacy of the syste
222 ctive here was to define reliable methods to regenerate pulp-like tissues in tooth root segments (RSs
223 tly replaced by a modified rDNA unit used to regenerate rDNA at three distinct chromosomal locations.
224 sions was the production of sulfuric acid to regenerate resins, rather than transportation.
225 l lesion that ablates inner retinal neurons, regenerated retinal bipolar neurons (BPs), although redu
226                 However, the extent to which regenerated retinal neurons attain appropriate morpholog
227 Adult zebrafish (Danio rerio) are capable of regenerating retinal neurons that have been lost due to
228                 Furthermore, ERG traces from regenerated retinas displayed waveforms matching those o
229 polar connectivity patterns were restored in regenerated retinas, suggesting that regenerated BPs rec
230                                    Live mice regenerate rhodopsin more rapidly in blue light.
231 emonstrated that this retinal analogue could regenerate rod pigment but not green cone pigment.
232 dation of the thiocarbonate releases CO2 and regenerates RSSR.
233 erapy or bioengineering SG tissues to repair/regenerate SG dysfunction.
234 lly similar to human limbs, knowing how they regenerate should provide important clues for regenerati
235                         It is then spun into regenerated silk fibers by direct extrusion in the air,
236 egenerated silk fibers; however, how to spin regenerated silk fibers that retain the advantages of na
237 ute to generate polymorphic and hierarchical regenerated silk fibers with physical properties beyond
238 Here, we show a bioinspired approach to spin regenerated silk fibers.
239 pinning methods have been applied to produce regenerated silk fibers; however, how to spin regenerate
240 ructures with multiscale morphology by using regenerated silk fibroin.
241 redictive of their ultimate contributions to regenerated skeletal structures, indicating early develo
242 t tissue defects, there is an urgent need to regenerate skin.
243 ow nerves spontaneously innervate tissues or regenerate small injuries is critical to enhance materia
244 The nervous system has limited capability to regenerate, so immune responses therein are carefully re
245 or extracellular matrix manipulations in non-regenerating species.Following spinal injury in zebrafis
246 ayer of the original, regenerating and fully regenerate spinal cord represent a heterogeneous populat
247              The replacement tail includes a regenerated spinal cord with a simple morphology: an epe
248 genitor cells (NSPCs) that contribute to the regenerated spinal cord.
249 nt, although the latter was only observed in regenerated spinal cords.
250 FICANCE STATEMENT Injured CNS nerves fail to regenerate spontaneously.
251 y lesioned retinal ganglion cell (RGC) axons regenerate successfully in the zebrafish optic nerve des
252 ficient use of these enzymes also requires a regenerating system for NAD(P)H to avoid the costs assoc
253 hereas ICM cells still retain the ability to regenerate TE up to the early blastocyst stage.
254 matopoietic stem cells lose their ability to regenerate the blood system, and promote disease develop
255 rt innately lacks the capacity to repair and regenerate the damaged myocardium from ischemic injury.
256  IR, they fail to reenter the cell cycle and regenerate the germline in a timely manner.
257 culin quality control cycle that is known to regenerate the Glc1Man9GlcNAc2 moiety on glycoproteins.
258 on strategy is promising as it enables us to regenerate the glycosyl donor for further utilization.
259 nteroblasts (EBs) and enterocytes (ECs) that regenerate the gut.
260 emerged as a novel and promising approach to regenerate the injured myocardium.
261 CMs) represents a novel clinical approach to regenerate the injured myocardium.
262 Various cleaning strategies were explored to regenerate the membrane performance after fouling.
263 available stents and extracellular matrix to regenerate the oesophagus in vivo in a human being to re
264                      Zebrafish spontaneously regenerate the retina after injury.
265                 Analyses, including steps to regenerate the sensor, took 17.5min.
266 differing phenotypes, not all of which fully regenerate the spectrum of human disease.
267 need to develop exogenous strategies to help regenerate the thymus.
268 xidation of the trimeric complexes with HNO3 regenerates the dimeric starting complexes with the rele
269 g of the crystals at 80-120 degrees C, which regenerates the guanidine sorbent quantitatively.
270 lgaris, are well known for their capacity to regenerate their arms and other body parts, including ce
271      Zebrafish display a distinct ability to regenerate their heart following injury.
272 , it has been suggested that newborn mammals regenerate their hearts after apical resection by cardio
273 e capacity to properly respond to injury and regenerate their residing tissues.
274       By contrast, teleost fish functionally regenerate their retina following injury, and Muller gli
275                            Washing stockings regenerated their pressure delivering potential signific
276 m these molecules, as well as catalysts that regenerate these molecules from CO2 and hydrogen, are re
277 ylation of homocysteine to methionine, which regenerates THF from 5-methylTHF.
278 usly reported that pain and myelinated axons regenerating through a Y-shaped nerve guide with sealed
279 axon tips, and was more abundant in actively regenerating tips than in static or retracting ones.
280 are tasked with replacing decaying cells and regenerating tissue after injury to maintain optimal tis
281 e cellular sources and key cell behaviors in regenerating tissue, elucidating molecular triggers and
282  tension can regulate cell-cycle dynamics in regenerating tissue, stratifying the source cell feature
283 ema contribute lineage-restricted progeny to regenerating tissue.
284  of stem cells, affecting their potential to regenerate tissues, and trigger the development of age-a
285 direct or pattern the angiogenic response in regenerating tissues to encourage re-innervation.
286 n the extracellular matrix of developing and regenerating tissues.
287 ionality or construct shape fidelity towards regenerating tissues.
288                                       In the regenerating tropical dry forests of Central America, th
289 et of stem-like cells possess the ability to regenerate tumours in vivo.
290            The SENT adsorbent may be readily regenerated under mild conditions using a globally avail
291  nitrogen-doped active carbons can be easily regenerated under mild conditions.
292 y made of repeating LFAO units that could be regenerated upon sonication.
293                      The failure of axons to regenerate was strongly correlated with a dramatic incre
294 stitution did not enable green cone opsin to regenerate with 11-cis-6mr-retinal.
295 sting that circuit patterns may be unable to regenerate with the same fidelity as in development.
296 nally, transplastomic plants expressing nfsI regenerated with high efficiency when grown on medium co
297 stant ratio of regenerates with two heads to regenerates with normal morphology.
298 tochastically results in a constant ratio of regenerates with two heads to regenerates with normal mo
299           The resulting head and tail pieces regenerate within about a week, forming two new worms.
300 olve active Hh/Smo output to a narrow distal regenerate zone comprising pObs and adjacent motile basa

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