ライフサイエンスコーパス: public domain

1 available national HIV care continuum in the public domain.

2 ging on transcriptomic data available in the public domain.

3 sion) provided by a user, to the data in the public domain.

4 d to show any similarity to sequences in the public domain.

5 sequence and that is freely available in the public domain.

6 on-exclusive licensing and dedication to the public domain.

7 s from transcriptomics datasets deposited in public domain.

8 al and isotopic signatures of the device are public domain.

9 for disease endpoints typically found in the public domain.

10 espite significant validation efforts in the public domain.

11 able through our comprehensive search of the public domain.

12 discovery ineffective and inefficient in the public domain.

13 iptional profiles available elsewhere in the public domain.

14 on with over 10,000 samples available in the public domain.

15 c information from RNA data deposited in the public domain.

16 us artifact, and private property versus the public domain.

17 t sequence similarity-based algorithm in the public domain.

18 o efficiently mine the chemical space in the public domain.

19 nique as an explosives detection tool in the public domain.

20 ) analysis of 162 sequences available in the public domain.

21 erials on diet and exercise available in the public domain.

22 ich annotations are not yet available in the public domain.

23 database, containing annotated data from the public domain.

24 nto a web database that is accessible to the public domain.

25 Saharan Africa were less likely to be in the public domain.

26 enome sequences have become available in the public domain.

27 sed sequence analysis tools available in the public domain.

28 se genes, and place these resources into the public domain.

29 tic genomes and release them freely into the public domain.

30 ture the interest of both the scientific and public domains.

31 of DNA methylomic data being released in the public domain allowing for an opportunity to investigate

32 ld-type loxP sites of most BAC clones in the public domain and a heterologous one inserted as a trans

33 hem for this purpose because they are in the public domain and because they assess the presence or ab

34 cite examples of resources available in the public domain and describe some of the software for data

35 er of data sets have been accumulated in the public domain and genomic information integration and me

36 of the gene expression data that are in the public domain and how researchers are making use of thes

37 biology and genome research is placed in the public domain and is accessible freely to all parts of t

38 millions of SNPs from both Perlegen and the public domain and the development of an efficient microa

39 s and were both previously unreported in the public domain and validated via quantitative PCR.

40 DNA clones that are not yet available in the public domain, and demonstrated the utility of a simple

41 tional continua of care are available in the public domain, and there is considerable variation in th

42 Other costs of communication in the public domain arise from "mistakes" (e.g., mating with t

43 gs (ESTs) are generated and deposited in the public domain, as redundant, unannotated, single-pass re

44 ided by several collections available in the public domain, as well as those produced by an in-house

45 The software is available in the public domain at http://compbio.cs.ucr.edu/brat/.

46 bEST databases (both provided by NCBI in the public domain at www.ncbi.nlm.nih.gov).

47 volume of whole genome sequence data in the public domain available to investigate it has increased

48 s a completely open platform, which combines public domain bioactivity data with open source database

49 Over 3 million public domain cereal and dicot expressed sequence tags w

50 Combining bioinformatics and public domain chromatin information with quantitative pr

51 re also collected through the application of public domain computer programs, and used in our predict

52 d annotated the wealth of information in the public domain concerning homologous genes and their prod

53 r annotated protein sequence database in the public domain, containing about 250 000 proteins.

54 of predictive models that were derived from public domain data sets.

55 oard approval was not necessary because only public domain data were used.

56 se identity to EST sequences reported in the public domain database (dbEST).

57 pathogen nucleic acid sequences available in public domain databases has invited their direct use in

58 CA1 splicing isoforms have been described in public domain databases, but the physiological role (if

59 on the basis of SNP information deposited in public domain databases.

60 enomic and analytical tools have entered the public domain for exploring and capturing this variation

61 ed to improve the selection of SNPs from the public domain for genetic research.

62 erous statistical tools are available in the public domain for the analysis of microarray experiments

63 The fractal dimension was calculated using a public domain fractal analysis program distributed by th

64 the amount of molecular sequence data in the public domain grows, so does the range of biological top

65 As the amount of biological data in the public domain grows, so does the range of modeling and a

66 n global health in both the academic and the public domain has focused largely on research, capacity

67 l for microarray studies integrated into our public domain HCE 3.5 software package.

68 es in Africa that had NHSPs available in the public domain in March, 2014, in English or French.

69 n, combining multiple omics data sets in the public domain increases robustness and accuracy of the c

70 gorithms, which are readily available in the public domain (Internet), to identify HL4-B7-restricted

71 Communication often extends into the public domain, inviting "eavesdropping" and other forms

72 e amount of biological data available in the public domain is growing exponentially, and there is an

73 the selfish exploitation of resources in the public domain, is a reason for many of our everyday soci

74 Here we report a public-domain method for achieving high multiplicity sin

75 unt of relevant data freely available in the public domain might be limited due to lack of bioinforma

76 We used public-domain, mortality-linked water intake data from t

77 Also, rings identified in public domain mutagenicity data sets are compared to rin

78 eotide Archive is a repository for the world public domain nucleotide sequence data output.

79 Archive (ENA) is a repository for the world public domain nucleotide sequence data output.

80 preserve and present globally comprehensive public domain nucleotide sequence information.

81 ollaboration (INSDC), globally comprehensive public domain nucleotide sequence is captured, preserved

82 ring, preserving and providing comprehensive public-domain nucleotide sequence information.

83 tion comprises more than 2700 strains in the public domain, of which 1050 are marine algae, 1300 fres

84 E. faecalis strain whose sequence is in the public domain, over 10% of the Tn917 insertions appear t

85 mputationally validate and provide the first public domain predictive algorithm for identifying drugg

86 tein sequence-level annotations derived from public domain programs, as well as libraries of hidden M

87 be achieved by well coordinated large scale public domain projects and the benefits of data access t

88 Public domain remote sensing data for the Bay of Bengal

89 Public domain research should be distinguished from prop

90 nly a few attempts to create a comprehensive public domain resource for cardiovascular researchers.

91 id not have obvious homologues in any of the public domain sequence databases.

92 n genomic DNA (35 introns) and comparison to public domain sequence of anonymous BACs (2 introns).

93 ed a polymorphism detection system that uses public-domain sequence data.

94 o functionally annotate newly discovered and public domain single nucleotide polymorphisms in order t

95 l is designed to be a clearing house for all public domain SNP functional annotation data, as well as

96 It is important that such data are in the public domain, so regulatory authorities recognize the i

97 ng a model's fit is described along with the public domain software developed to perform the necessar

98 We have developed PROVAT, a versatile public domain software that enables computation and visu

99 ce analysis suite that uses freely available public domain software to (1) process raw trace chromato

100 some of the most complex models available in public domain software, and are implemented to run in pa

101 BEPro (3) is public domain software, has been tested on WIndows XP, L

102 This is performed using the integrated public-domain software packages NITPIC, SEDPHAT and GUSS

103 s security issues in existing commercial and public domain solutions.

104 y not be known, however, and SNPs taken from public domain sources may not in fact be polymorphic.

105 llectively expanded to create collections of public-domain standard biological parts that support rel

106 e deposition of huge microarray data sets in public domains, study on gene networking is now possible

107 ukaryotic non-plant protein sequences in the public domain that includes about 770,000 entries.

108 y annotated protein sequence database in the public domain, the PIR-International Protein Sequence Da

109 , annotated protein sequence database in the public domain, the PIR-International Protein Sequence Da

110 to this aim, we evaluated information in the public domain to explore IAV evolutionary dynamics, incl

111 onal information from diverse sources in the public domain to facilitate investigator evaluation of p

112 house as well as established software in the public domain to validate atomic coordinate files, ident

113 About 55,000 HFV sequences exist in the public domain today.

114 However, over 1.3 million available public-domain Triticeae ESTs (of which approximately 850

115 Information downloaded from the scientific public domain was queried with bioinformatics tools to g

116 ariant interpretations are all shared in the public domain-we invite others to review our results usi

117 n of investigators, data are placed into the public domain where they can be interrogated and downloa

118 The score will be in the public domain, which means that it can be freely used in

119 ely release of multiple types of data in the public domain while helping overcome the bottlenecks of

120 sistent methods and routine reporting in the public domain will be necessary for tracking progress to

121 ysis of third-party sequencing data from the public domain with over thousands of tracks hosted to da

122 rvices by a wildland garden is to generate a public-domain Yellow Pages for its organisms.