1 alanche of genome sequences generated in the
postgenomic age, it is highly desirable to develop autom
2 alanche of genome sequences generated in the
postgenomic age, it is highly desired to develop automat
3 A powerful tool for
postgenomic analysis of mammalian gene function is gene
4 e formation, thereby drawing a link between "
postgenomic"
and "pregenomic" pathophysiological knowled
5 o used a protein microarray to demonstrate a
postgenomic application of the hookworm genome sequence.
6 "
Postgenomic approaches" are beginning to impact on our u
7 alternative biomarkers using newly developed
postgenomic approaches.
8 Metabolomics is an emerging field of
postgenomic biology concerned with comprehensive analysi
9 life remains one of the major challenges in
postgenomic biology.
10 ssessment remains an essential imperative in
postgenomic cancer medicine.
11 s for enzymes of unknown function is a major
postgenomic challenge.
12 as given new avenues in correlating existing
postgenomic data with current metabonomic results in P.
13 emical pathways and regulatory networks from
postgenomic data.
14 The meta-analysis of large-scale
postgenomics data sets within public databases promises
15 Postgenomic dissection of the M. tuberculosis proteome i
16 An important step in the
postgenomic drug discovery is the construction of high q
17 Alternative splicing (AS) has emerged in the
postgenomic era as one of the main drivers of proteome d
18 The tools of the
postgenomic era enable high-throughput studies of the mu
19 The
postgenomic era has revolutionized approaches to definin
20 However, the
postgenomic era has substantiated information on the spe
21 We are rapidly approaching the
postgenomic era in which we will know all of the 3 billi
22 The
postgenomic era is providing a wealth of information abo
23 the central problems in biochemistry in the
postgenomic era is the elucidation of functions of prote
24 One of the major challenges in the
postgenomic era is the functional assignment of proteins
25 A central challenge of the
postgenomic era is to comprehensively characterize the c
26 The broad aim of biomedical science in the
postgenomic era is to link genomic and phenotype informa
27 A major challenge of the
postgenomic era is to understand how human genes functio
28 In this
postgenomic era it is now recognized that there may be f
29 In the
postgenomic era of biology, much attention has been give
30 In the
postgenomic era of cancer biology, it is becoming increa
31 ney discusses the growing realization in the
postgenomic era that genomic biology deviates from Mende
32 ental microbial communities has extended the
postgenomic era to the field of environmental microbiolo
33 In the
postgenomic era, a framework has emerged of the potentia
34 In this
postgenomic era, a huge volume of information derived fr
35 007 meeting on leishmaniasis research in the
postgenomic era, approximately 60 researchers participat
36 In the
postgenomic era, bioinformatic analysis of sequence simi
37 In the
postgenomic era, functional genomics, however, strongly
38 In this
postgenomic era, insect systematics will be furthered be
39 In the
postgenomic era, one of the most interesting and importa
40 In the
postgenomic era, one of the most interesting and importa
41 In the
postgenomic era, sequence-specific gene-editing tools en
42 Contrary to prevailing notions in this
postgenomic era, the bacteriophage lambda, a paragon of
43 In the
postgenomic era, the discovery of such systems can be ex
44 In the
postgenomic era, the genotypic and phenotypic difference
45 In the
postgenomic era, the medical/biological fields are advan
46 apidly being identified and validated in the
postgenomic era, urging scientists to explore novel tech
47 Five years into the human
postgenomic era, we are gaining considerable knowledge a
48 gies are increasingly important tools in the
postgenomic era, where biotechnological objectives often
49 focus of many high-throughput studies in the
postgenomic era.
50 ing approach to advance skin research in the
postgenomic era.
51 y to take on the new challenges posed by the
postgenomic era.
52 key challenge in medical applications in the
postgenomic era.
53 nctional data for all sequenced genes in the
postgenomic era.
54 man diseases represent a new paradigm in the
postgenomic era.
55 w cells function is a major challenge of the
postgenomic era.
56 traits is one of the major challenges in the
postgenomic era.
57 d alterations that will be discovered in the
postgenomic era.
58 one of biology's greatest challenges in the
postgenomic era.
59 orks is emerging as a major challenge in the
postgenomic era.
60 ain disease are eagerly being sought in this
postgenomic era.
61 ionize structural glycobiology in the coming
postgenomic era.
62 y and aid in studies of gene function in the
postgenomic era.
63 te metabolism in pathogenic Neisseria in the
postgenomic era.
64 The advent of the
postgenomics era has led to increased interest in explor
65 , with an emphasis on eukaryotes, of how the
postgenomics era is adopting comparative approaches that
66 An important area of research in the
postgenomics era is to relate high-dimensional genetic o
67 To enable application of
postgenomic evolutionary approaches to understand the di
68 cobacteriophage recombinants will facilitate
postgenomic explorations into mycobacteriophage biology.
69 We describe a
postgenomic in silico approach for identifying genes tha
70 he explosive growth of bacterial genomic and
postgenomic information, there is a pressing need for ef
71 As part of a comprehensive
postgenomic investigation of the model archaeon Halobact
72 Facilitating
postgenomic literacy among the public has the potential
73 ns genetically identical cells through which
postgenomic mechanisms contribute to its enormous divers
74 erest in the field-genetic animal models and
postgenomic mechanisms of pancreatic carcinogenesis.
75 A
postgenomic meta-analysis, comparing the evolutionarily
76 Future scientific progress within the
postgenomic paradigm requires elucidation of the functio
77 ghlight the current status of cyanobacterial
postgenomic research and assess the potential for future
78 To date, bacterial
postgenomic research has focused mainly on a few represe
79 ere considered and the priorities ranked for
postgenomic research in Plasmodium.
80 tein information through in silico analyses,
postgenomic research is developing rapidly.
81 A central focus of
postgenomic research will be to understand how cellular
82 going efforts toward fundamental and applied
postgenomic research, including the development of new m
83 In the era of
postgenomic research, linkage- and association-based str
84 of hundreds of sequenced genomes and of rich
postgenomic resources now makes possible the use of comp
85 accessible online at http://www.sanger.ac.uk/
PostGenomics/
S_pombe/YOGY/.
86 These results are additional evidence that
postgenomic strategies provide new ways to identify and
87 Together with high-throughput
postgenomic technologies, such investigations hold promi
88 provides the formative context for Charney's
postgenomic view.