ライフサイエンスコーパス: panther

1 ; also known as mountain lions, cougars, and panthers).

2 RT, TIGRFAMs, PIRSF, SUPERFAMILY, Gene3D and PANTHER.

3 , there have been three main improvements to PANTHER.

4 r of pathways associated with subfamilies in PANTHER.

5 based inference, such as that implemented in PANTHER.

6 omain databases include COG, Pfam, SMART and Panther.

7 ations to Gene Ontology (GO) and pathways in PANTHER.

8 ng regions with the annotated human genes in PANTHER.

9 using the multiple axes of classification in PANTHER.

10 The latest version of PANTHER, 10.0, includes almost 5000 new protein families

11 PANTHER 5.0 includes a number of significant improvement

12 how that the D. rerio pigment pattern mutant panther ablates xanthophores in embryos and adults and h

13 erations of admixture, which helped increase panther abundance (> fivefold) and genetic effective pop

14 PANTHER analysis showed consistent enrichment in the Wnt

15 amples, and 205 matched CVL specimens on the Panther and m2000 platforms.

16 from the Atlas of Cancer Signalling Network, PANTHER and Reactome databases and review them in terms

17 ic trees of gene families form the basis for PANTHER and these trees are annotated with ontology term

18 Florida to collect detection data on humans, panthers and deer.

19 Terminal tissues from FeLV-infected Florida panthers and domestic cats had similar exFeLV proviral c

20 es, but FeLV outbreaks in endangered Florida panthers and Iberian lynxes have resulted in mortalities

21 s for SARS-CoV-2 (Cepheid, DiaSorin, Hologic Panther, and Roche Cobas) on a total of 169 nasopharynge

22 ay), and the Hologic Aptima SARS-CoV-2 assay Panther (Aptima SARS-CoV-2 assay) NAAT systems were dete

23 ber databases to join InterPro, and CATH and PANTHER are soon to be integrated.

24 rth American puma and the endangered Florida panther, are of high conservation concern.

25 n of classification information available in PANTHER, as well as significant enhancements to the anal

26 one implemented by FlyBase and the other by PANTHER at Celera Genomics.

27 Supporting our hypothesis, panthers' avoidance of human recreation and flooding cre

28 t the panther population would fall below 10 panthers by 2010 was 0.098 (0.002-0.332) for the restora

29 PolyPhen2, SIFT, MutationAssessor, Panther, CADD, and Condel were used to predict each muta

30 lemented in mixOmics were assessed using the PANTHER Classification system for molecular functions, b

31 ons and pathways were investigated using the Panther classification system, and the Fisher exact test

32 analyze genome-wide experimental data in the PANTHER classification system.

33 alyze genome-wide experimental data with the PANTHER classification system.

34 d deer detections, resulting in reduced deer-panther co-occurrence during the flooded season.

35 the InterPro suite of databases, and to make PANTHER consistent with the PIRSF database.

36 We find that panther corresponds to an orthologue of the c-fms gene,

37 The PANTHER database contains comprehensive information on t

38 We found using gene ontology and PANTHER database data that these candidate proteins are

39 The current version of the PANTHER database includes training sequences from all or

40 The PANTHER database was designed for high-throughput analys

41 The PANTHER database was designed to model evolutionary sequ

42 ry of over 15 000 gene family trees from the PANTHER database, and are updated on a yearly basis.

43 t analyses for Gene Ontology, KEGG pathways, PANTHER database, and gene set enrichment analysis (DisG

44 gene families across the Tree of Life in the PANTHER database.

45 f the approximately 100 other species in the PANTHER database.

46 ecological disturbances would interact with panther-deer ecology, resulting in the emergence of two

47 The genome of a Florida panther descended from translocated Central American ind

48 e of human site use and flooding on deer and panther detection probability, co-occurrence and diel ac

49 Flooding led to decreased panther detections and increased deer detections, result

50 Panthers exhibited increased nocturnality and reduced di

51 ii) an improved methodology for defining the PANTHER families and subfamilies, and for building the H

52 ogy has been completely refactored, and 6101 PANTHER families have been manually assigned to a Protei

53 annotations to Gene Ontology (GO) terms, and PANTHER family and subfamily.

54 We describe a method, PANTHER, for relating protein sequence relationships to

55 tinue to support the distinctness of Florida panthers from other North American puma populations, inc

56 The Panther Fusion (Fusion; Hologic) system has an array of

57 ucleic acid amplification tests (NAATs), the Panther Fusion and BD MAX systems, for detection of GBS

58 a standard run size of 60 specimens/day, the Panther Fusion assay had a longer TFR (2.4 versus 2.0 h)

59 The positive percent agreement of the Panther Fusion assay was 96.9% (378/390) for SARS-CoV-2,

60 ositive by culture were also detected by the Panther Fusion assay, while 107/108 (99.1%) were detecte

61 tation for SARS-CoV-2 and to the FDA-cleared Panther Fusion Flu A/B/RSV assay results for all non-SAR

62 dom- access investigational use only Hologic Panther Fusion Gastrointestinal (GI) Bacterial assay and

63 In summary, the Panther Fusion GBS assay has clinical performance compar

64 omparator method, which included the Hologic Panther Fusion GBS test combined with bacterial culture,

65 cid amplification tests (NAATs), the Hologic Panther Fusion GBS, Luminex Aries GBS, and Cepheid Xpert

66 Overall, the IUO Panther Fusion GI Bacterial and Expanded Bacterial assay

67 f the investigational use only (IUO) Hologic Panther Fusion GI Bacterial and Expanded Bacterial assay

68 on Gastrointestinal (GI) Bacterial assay and Panther Fusion GI Expanded Bacterial assay perform compa

69 two LDTs for FluA virus strain typing on the Panther Fusion instrument, enabling side-by-side testing

70 e RT-PCR H5 single-plex assay on the Hologic Panther Fusion Open Access platform for reflex testing o

71 tion of a real-time PCR assay on the Hologic Panther Fusion Open Access system for the detection of m

72 lade II human mpox virus using the automated Panther Fusion platform and Open Access software.

73 Cepheid Xpert Xpress SARS-CoV-2 and Hologic Panther Fusion real-time RT-PCR assays for detection of

74 assay would be a valuable complement to the Panther Fusion respiratory menu given the performance of

75 SARS-CoV-2 (GenMark) assay, and the Hologic Panther Fusion SARS-CoV-2 (Hologic) assay.

76 compared three of these assays, the Hologic Panther Fusion SARS-CoV-2 assay (Fusion), the Hologic Ap

77 94% for the CDC 2019-nCoV real-time RT-PCR, Panther Fusion SARS-CoV-2 assay, and Cobas SARS-CoV-2 te

78 aSorin Simplexa COVID-19 Direct, and Hologic Panther Fusion SARS-CoV-2 assays.

79 dy evaluated the clinical performance of the Panther Fusion SARS-CoV-2/Flu A/B/RSV assay in nasophary

80 Xpert Xpress CoV-2/Flu/RSV Plus, and Hologic Panther Fusion SARS-CoV-2/Flu A/B/RSV assays.

81 cal performance was established by comparing Panther Fusion SARS-CoV-2/Flu assay results to a three-m

82 The Panther Fusion SARS-CoV-2/Flu/RSV assay provides highly

83 Specimens with discordant Panther Fusion SARS/Flu/RSV assay results all had cycle

84 eshold values of >=32.4 (by comparator or by Panther Fusion SARS/Flu/RSV assay).

85 The Panther Fusion system also had a larger sample loading c

86 The assay was launched on the Hologic Panther fusion system to improve throughput and reduce t

87 zers (Roche Cobas, Abbott m2000, and Hologic Panther Fusion) and 167 to 511 copies/ml for sample-to-a

88 syMAG with ABI 7500Fast (CDC assay), Hologic Panther Fusion, and Roche Cobas 6800.

89 two high-throughput systems: cobas 6800 and Panther Fusion, and their associated RT-PCR assays, with

90 The Hologic Panther Fusion, DiaSorin Simplexa, and Roche Cobas 6800

91 fam protein domains and 9.4% (max 22.9%) for PANTHER gene families.

92 fications, we have developed an entirely new PANTHER GO-slim, containing over four times as many Gene

93 lude additional plant genomes and an updated PANTHER GO-slim.

94 The Indo-pacific panther grouper (Chromileptes altiveli) is a predatory f

95 ts within one degree of capture locations of panther grouper from the United States Geological Survey

96 known estimation of the potential spread of panther grouper in the Atlantic.

97 el and is indicated as the area in which the panther grouper is most likely to become established.

98 However, unlike lionfish, the panther grouper is not yet thought to have an establishe

99 (Pterois volitans/miles), which, as for the panther grouper, is assumed to have been introduced to t

100 stanleyana were released into Florida panther habitat in southern Florida in 1995.

101 Yet the focus of PANTHER has continually shifted toward more accurate and

102 For the data analysis tools, PANTHER has expanded the number of different 'functional

103 a member of the InterPro Consortium, and the PANTHER hidden markov Models (HMMs) are distributed as p

104 iii) resources for scoring sequences against PANTHER HMMs both over the web and locally; and (iv) a n

105 there have been several new developments to PANTHER: (i) improved phylogenetic trees, explicitly rep

106 nitiative - using the estimated abundance of panthers in 1995, the year genetic restoration was initi

107 s: the PANTHER library (PANTHER/LIB) and the PANTHER index (PANTHER/X).

108 h idiopathic pulmonary fibrosis (IPF) in the PANTHER-IPF (Evaluating the Effectiveness of Prednisone,

109 was measured from available DNA samples from PANTHER-IPF (interim analysis, n = 79; final analysis, n

110 n immunosuppression and LTL for the combined PANTHER-IPF and ACE-IPF clinical trials (P(interaction)

111 ain Results: Of the subjects enrolled in the PANTHER-IPF and ACE-IPF, 62% (49/79) and 56% (28/50) had

112 In PANTHER-IPF, exposure to prednisone/azathioprine/N-acety

113 PANTHER is a freely available, comprehensive software sy

114 PANTHER is a large collection of protein families that h

115 PANTHER is a resource for the evolutionary and functiona

116 PANTHER is a widely used online resource for comprehensi

117 PANTHER is an international phase III trial which compar

118 PANTHER is composed of two main components: the PANTHER

119 One of the main applications of PANTHER is in accurate prediction of the functions of un

120 Second, PANTHER is now a member of the InterPro Consortium, and

121 PANTHER is widely used by bench scientists, bioinformati

122 Analysis THrough Evolutionary Relationships (PANTHER) is a comprehensive software system for inferrin

123 ion, including cross-validated prediction of PANTHER LDOs and evaluation of evolutionary divergence a

124 PANTHER/LIB is a collection of "books," each representin

125 of two main components: the PANTHER library (PANTHER/LIB) and the PANTHER index (PANTHER/X).

126 THER is composed of two main components: the PANTHER library (PANTHER/LIB) and the PANTHER index (PAN

127 We also describe extensive improvements to PANTHER made in the past two years.

128 sociation error rate of both the FlyBase and PANTHER methods to be <2%.

129 methods (SIFT, PolyPhen2, SNPs&GO, PhD-SNP, PANTHER, Mutation Assessor, MutPred, Condel and CAROL) a

130 an genes (as well as a few other organisms), PANTHER now also supports enrichment analysis using path

131 Finally, PANTHER now includes stable database identifiers for inf

132 of this restoration experiment and show that panther numbers increased threefold, genetic heterozygos

133 estic cats and 11 naturally infected Florida panthers (P. concolor coryi).

134 PANTHER pathways were generated using the emerging Syste

135 gy (GO) terms, and sequences are assigned to PANTHER pathways.

136 rotein class), and sequences are assigned to PANTHER pathways.

137 multiple, diverse source databases: Gene3D, PANTHER, Pfam, PIRSF, PRINTS, ProDom, PROSITE, SMART, SU

138 ished prediction tools: MAPP, nsSNPAnalyzer, PANTHER, PhD-SNP, PolyPhen-1, PolyPhen-2, SIFT and SNAP.

139 ationTaster, Mutation Assessor, FATHMM, LRT, PANTHER, PhD-SNP, SNAP, SNPs&GO and MutPred), 3 conserva

140 s: 0.95-1.14), suggesting an increase in the panther population of approximately 4% per year.

141 esponsible for the substantial growth of the panther population that would otherwise have been declin

142 density-dependence, the probability that the panther population would fall below 10 panthers by 2010

143 cenario, providing further evidence that the panther population would have faced a substantially high

144 ted to the observed increases in the Florida panther population.

145 Here, we describe the current PANTHER process as a whole, as well as the website tools

146 The PANTHER Protein Class ontology has been completely refac

147 with ontology terms (Gene Ontology (GO) and PANTHER protein class), and sequences are assigned to PA

148 uracy, TIPS is being used in the large-scale PANTHER protein classification project.

149 The PANTHER (Protein ANalysis THrough Evolutionary Relations

150 The PANTHER (protein annotation through evolutionary relatio

151 PANTHER-PSEP employs a related but distinct metric based

152 PANTHER-PSEP is a new software tool for predicting non-s

153 cs and persistence of the endangered Florida panther Puma concolor coryi population and evaluated the

154 movement patterns of the endangered Florida panther (Puma concolor coryi) and to discern factors inf

155 d over 40 years from 1192 endangered Florida panthers (Puma concolor coryi) across nine generations,

156 an activity, on interactions between Florida panthers (Puma concolor coryi) and white-tailed deer (Od

157 pecific PLVA transmission has occurred among panthers (Puma concolor coryi) in Florida following the

158 The rediscovery of remnant Florida panthers (Puma concolor coryi) in southern Florida swamp

159 these genes were retrieved and linked using PANTHER((R))/Pathway Studio((R)).

160 We used the Gene Ontology, Ingenuity, KEGG, Panther, Reactome, and Biocarta databases for gene set e

161 The main goals of PANTHER remain essentially unchanged: the accurate infer

162 (KEGG), Ingenuity Pathway, Gene Ontology and PANTHER respectively.

163 PANTHER software tools allow users to classify new prote

164 V in plasma specimens on the fully automated Panther system and that the results were comparable to t

165 d CVL specimens and that the fully automated Panther system has all the necessary features suitable f

166 Marlborough, MA) performed on the automated Panther system is a rapid and high-throughput method for

167 ter-labeled probe chemistry on the automated Panther system to directly amplify and detect two separa

168 automated format and high throughput of the Panther system, make this system well suited for reliabl

169 Quant Dx assay (Aptima HCV) performed on the Panther system.

170 Dx assay (Aptima) performed on the automated Panther system.

171 ar exFeLV proviral copy numbers, but Florida panther tissues have higher FeLV antigen loads.

172 Efforts are underway to add PANTHER to the InterPro suite of databases, and to make

173 We apply PANTHER to three areas of active research.

174 ences to the reference phylogenetic trees in PANTHER, to infer evolutionary context as well as fine-g

175 vailable services for programmatic access to PANTHER tools and data via application programming inter

176 t to expect when analyzing a gene list using PANTHER tools.

177 Finally, the PANTHER Tree-Attribute Viewer has been implemented in Ja

178 In addition, PANTHER trees are being annotated with gene function as

179 The current system (PANTHER v.14.0) covers 131 complete genomes organized in

180 In the 2013 release of PANTHER (v.8.0), in addition to an update of the data co

181 The PANTHER website includes a suite of tools that enable us

182 e enrichment analysis tools available on the PANTHER website: users can now analyze over 900 differen

183 movement patterns of male and female Florida panthers were a consequence of sex-specific differences

184 protein family boundaries, and have aligned PANTHER with the MEROPS resource for protease and protea

185 ility that the population will fall below 10 panthers within 100 years was 0.072 (0-0.606).

186 We developed the three-banded panther worm, Hofstenia miamia, as a new acoelomorph mod

187 PANTHER/X is an abbreviated ontology for summarizing and

188 Second, we use the PANTHER/X ontology to give a high-level representation o

189 library (PANTHER/LIB) and the PANTHER index (PANTHER/X).