1 lanche of genomic sequences generated in the
post-genomic age requires efficient computational method
2 bility of protein sequences generated in the
post-genomic age, however, a sequence-based solution to
3 avalanche of DNA sequences generated in the
post-genomic age, it is a challenging task to develop co
4 valanche of genome sequences emerging in the
post-genomic age, it is an urgent challenge to acquire t
5 alanche of genome sequences generated in the
post-genomic age, it is highly desired to develop automa
6 ity of amino acid sequences generated in the
post-genomic age, it is possible to predict an unknown p
7 che of biological sequences generated in the
post-genomic age, one of the most challenging problems i
8 paralleled access to species' genomes in our
post-genomic age, we often lack adequate biological expl
9 how genotype translates to phenotype in this
post-genomic age.
10 databases in the recent years the results of
post-genomic analyses can facilitate a better understand
11 provides a platform which will be of use for
post-genomic analyses of Leishmania cell biology in rela
12 d therefore has numerous applications in the
post-genomic analysis of protein function.
13 sequenced organism is an essential task for
post-genomic analysis.
14 Post-genomic and systems biology approaches are also eme
15 Sensory biotechnology could be the first
post-genomic application to break through to the consume
16 usefulness of frameshift alignment with two '
post-genomic'
applications: (i) when finding pseudogenes
17 But now a
post-genomics approach has provided a powerful wedge int
18 Over recent years, genomic and
post-genomic approaches have produced a wealth of inform
19 ganisms, an increasingly useful resource for
post-genomics approaches.
20 A key challenge in the
post-genomic area is to identify the function of the gen
21 lar signatures produced from high-throughput
post-genomic assays.
22 Genomic and
post-genomic biological research has provided fine-grain
23 In short, much of
post-genomic biology is increasingly becoming a form of
24 s) to their targets, is a central problem in
post-genomic biology.
25 rupt RNA function, an important objective in
post-genomic biology.
26 ioinformatics to lead experimental design in
post-genomic biology.
27 h a particular focus on their application to
post-genomic data analysis.
28 cal knowledge from the ab initio analysis of
post-genomic data relies upon the use of unsupervised pr
29 in interaction networks are one of the major
post-genomic data sources available to molecular biologi
30 y designed to tackle the challenges posed by
post-genomic data.
31 discriminatory variables and samples for any
post-genomic dataset.
32 abase is designed to accommodate genome-wide
post-genomic datasets that are becoming available for th
33 Here, we describe
post-genomic developments toward the identification of d
34 bility across a wide range of analytical and
post-genomic disciplines.
35 used to extract functional information in a
post-genomic environment.
36 ization for neurodegenerative disease in the
post genomic era must include genotype, phenotype and cl
37 Cancer biology finds itself in a
post-genomic era and the hopes of using inherited geneti
38 terized proteins is a major challenge in the
post-genomic era due to the problem's complexity and sca
39 rise of high-throughput technologies in the
post-genomic era has led to the production of large amou
40 The
post-genomic era has resulted in the accumulation of hig
41 e consider the transition from genomics to a
post-genomic era in Aspergillus, describing resources an
42 A prominent feature of the early
post-genomic era is the description of the molecular mac
43 A critical challenge of the
post-genomic era is to understand how genes are differen
44 area in anti-infectives research, but in the
post-genomic era it has been more difficult than expecte
45 el high-throughput approaches spawned by the
post-genomic era on the development of next-generation d
46 Opportunities exist in the
post-genomic era to bypass resistance to classical retin
47 In the current
post-genomic era we must ask how to translate this DNA s
48 n of experimental breeding programmes in the
post-genomic era when we shall potentially have access t
49 we propose, equipped with insights from the
post-genomic era, a contrary view: that microbiology's c
50 In the
post-genomic era, advances in the field of cancer biolog
51 In the
post-genomic era, biologists interested in systems biolo
52 In the
post-genomic era, developing tools to decode biological
53 In the
post-genomic era, functional prediction of genes is larg
54 ments of the small RNA field in the pre- and
post-genomic era, in celebration of the 10th anniversary
55 In the
post-genomic era, many useful tools have been developed
56 In this
post-genomic era, our capacity to explore biological net
57 As biology enters the
post-genomic era, researchers have begun to embrace the
58 In the
post-genomic era, the annotation of protein function fac
59 In the
post-genomic era, the elucidation of the relationship be
60 In this
post-genomic era, the individualization of chemotherapy
61 Now that we are in the
post-genomic era, there is a greater need than ever for
62 As we enter the
post-genomic era, there is an increasing need for accura
63 As we enter the
post-genomic era, with the number of candidate loci unde
64 Plant research is moving into the
post-genomic era.
65 phylogenetic position as a bryophyte in the
post-genomic era.
66 tool for analysis of protein function in the
post-genomic era.
67 to our understanding of gene function in the
post-genomic era.
68 nal regulatory network is a challenge of the
post-genomic era.
69 iderable importance to bioinformatics in the
post-genomic era.
70 central challenge for cancer genomes in the
post-genomic era.
71 by computational methods is required in the
post-genomic era.
72 tion determination is a key challenge in the
post-genomic era.
73 quence variations in complex diseases in the
post-genomic era.
74 iants remains a significant challenge in the
post-genomic era.
75 ction networks has received attention in the
post-genomic era.
76 hemical assays are gaining popularity in the
post-genomic era.
77 covered proteins has been a challenge in the
post-genomic era.
78 t levels of biological complexity during the
post-genomic era.
79 n immediate opportunity and challenge in the
post-genomic era.
80 isms represent significant challenges of the
post-genomic era.
81 t has propelled biological research into the
post-genomic era.
82 tiple genomes is an important problem in the
post-genomic era.
83 is one of the most important problems in the
post-genomic era.
84 dly becoming a standard research tool in the
post-genomic era.
85 cal pathway is one key molecular goal in the
post-genomic era.
86 is crucial to biological research during the
post-genomic era.
87 g the use of this genomic information in the
post-genomic era.
88 one of the most challenging problems of the
post-genomic era.
89 sequences continues to widen rapidly in the
post-genomics era due to long and expensive processes fo
90 o capture some of the current efforts in the
post-genomics era of malaria research and highlights the
91 In the
post-genomics era, molecular evolutionary geneticists ha
92 malian gene function studies as we enter the
post-genomics era.
93 gen, Candida albicans has firmly entered the
post-genomics era.
94 key component to the next revolution in the '
post-genomic'
era will be the increasingly widespread us
95 d to contain and manipulate information from
post-genomic experiments using the model bacterium Esche
96 hrough their involvement in leukaemia or via
post-genomic gene discovery approaches.
97 e, progress made in schistosome genomics and
post-genomics is considered.
98 lecular mechanism of cancer formation at the
post-genomic level.
99 epresents one of the most important goals in
post-genomics malaria research.
100 ires express a degree of uniformity in their
post-genomic organization.
101 ow stand on the brink of a new revolution in
post-genomic personalised medicine, with physics-based t
102 al genome sequences has ushered in an era of
post-genomic research - accelerating and often enabling
103 A major challenge in
post-genomic research has been to understand how physiol
104 o bumblebee genomes provide a foundation for
post-genomic research on these key pollinators and insec
105 s (genome browsers) are rapidly accelerating
post-genomic research, with integrated genomic DNA, gene
106 ls, provides the foundation for a new era of
post-genomic research.
107 ors in MSAs is important for a wide range of
post-genomic research.
108 nd tissue-specific contexts, a major goal of
post-genomic research.
109 igene engineering to realize benefits of the
post-genomic revolution.
110 Metabolomics is emerging as an exciting
post-genomic science with applications that span the sco
111 A major
post-genomic scientific and technological pursuit is to
112 In the
post-genomic sequencing era, an expanding portfolio of g
113 Post-genomic studies have revealed complex patterns of g
114 d mutants, provide foundations for a host of
post-genomic studies to shed more light on the relations
115 o supporting and validating predictions from
post-genomic studies.
116 array technology remains at the forefront of
post-genomic systems biology.
117 With the increasing use of
post-genomics techniques to examine a wide variety of bi
118 Recent advances in genomic and
post-genomic technologies have facilitated a genome-wide
119 The application of
post-genomic technologies is beginning to provide insigh
120 mitations of these approaches and review how
post-genomic technologies offer complementary strategies
121 It is anticipated that the application of
post-genomic technologies will begin to shed light on th
122 ough the use of high-throughput genomics and
post-genomics technologies.
123 Motivation: Metabolomics is a
post genomic technology which seeks to provide a compreh
124 New developments in
post-genomic technology now provide researchers with the
125 iological systems, is emerging as a powerful
post-genomic technology.
126 ction maps represent essential components of
post-genomic toolkits needed for understanding biologica
127 In the
post-genomic view of cellular function, each biological