1 een difficult to resolve on the basis of the
draft genome sequence.
2 loped, culminating in the release of the rat
draft genome sequence.
3 ically important genes and the assembly of a
draft genome sequence.
4 We present its
draft genome sequence.
5 ires of dog, cow, and opossum based on their
draft genome sequences.
6 brid assembly approaches to improve existing
draft genome sequences.
7 and chlorophyta, as well as angiosperms with
draft genome sequences.
8 We present their
draft genome sequences.
9 The
draft genome sequence allowed the discovery of several g
10 Here we present a
draft genome sequence and a genetic transformation metho
11 y eukaryotic genome project for which both a
draft genome sequence and ESTs are available.
12 We present the
draft genome sequence and its analysis for Fusobacterium
13 genomic features of EhV-202, together with a
draft genome sequence and its annotation, highlighting t
14 Here, we report the
draft genome sequences and automatic annotation of H24L5
15 Here we report the
draft genome sequences and automatic annotations of both
16 l be able to harness HTS rapidly to generate
draft genome sequences and diagnostic primer sets, great
17 1, EhV-207, and EhV-208) together with their
draft genome sequences and their annotations, highlighti
18 Draft genome sequences are available for Anopheles gambi
19 ut sequencing technologies, new high quality
draft genome sequences are published at a striking pace.
20 ere we present the annotated Pseudomonas sp.
draft genome sequence as a contribution to the efforts o
21 Here we present a
draft genome sequence assembly of X. tropicalis.
22 iosynthetic enzymes, highlighting how even a
draft genome sequence can empower the study of high-valu
23 This resource incorporates finished and
draft genome sequence data and annotation emerging from
24 Here we present a high-quality
draft genome sequence for G. hansenii ATCC 53582 and fin
25 tween diverse pennycress lines and develop a
draft genome sequence for pennycress will further direct
26 Here, we present the
draft genome sequence for the ammonia-oxidizing archaeon
27 rT markers and EST sequences, and links to a
draft genome sequence for the wheat variety Chinese Spri
28 e Populus deltoides microbiome, we generated
draft genome sequences for 21 Pseudomonas strains and 19
29 Here we report the availability of
draft genome sequences for 28 enterococcal strains of di
30 Here, we present a
draft genome sequence from a 35,000-year-old wolf from t
31 y timely with the increasing availability of
draft genome sequence from different organisms and the m
32 The
draft genome sequences from two subspecies of rice are p
33 A
draft genome sequence has recently been completed, makin
34 Draft genome sequences have been determined for the soyb
35 c clones, suggesting some limitations of the
draft genome sequence in providing accurate positional i
36 Although a
draft genome sequence is available for S. japonicum, the
37 ium isolated from Populus deltoides, and its
draft genome sequence is reported.
38 Draft genome sequencing,
mutagenesis, and heterologous b
39 BAC-based physical map represents the first
draft genome sequence not only for any member of the lar
40 The
draft genome sequence,
obtained by Illumina MiSeq sequen
41 Here, we present the
draft genome sequence of "Candidatus Nitrosoarchaeum lim
42 Here we report a 3x
draft genome sequence of 'SunUp' papaya, the first comme
43 We used the recently released rough
draft genome sequence of a closely related strain, M. aq
44 Likewise, the pattern of mutation in a
draft genome sequence of a derived inducible hypermutato
45 mparison of this survey-sequence data with a
draft genome sequence of a distinct dog (a boxer) has co
46 Here we report a 2.4-Gb
draft genome sequence of a female Chinese hamster, Crice
47 Here, we report the
draft genome sequence of a naturally competent serotype
48 Propionibacterium acnes, we have produced a
draft genome sequence of a novel Propionibacterium speci
49 Here, we report the
draft genome sequence of a particularly widespread and w
50 Here we present the
draft genome sequence of Amphimedon queenslandica, a dem
51 Here, we generated a
draft genome sequence of an ECM protein-adherent S. gall
52 Here we report the
draft genome sequence of AP103(T), which consists of 5,1
53 The
draft genome sequence of B. cookei provided novel insigh
54 Here, a
draft genome sequence of B. cookei was obtained and anal
55 Here we describe a
draft genome sequence of Brassica oleracea, comparing it
56 Here we report the
draft genome sequence of castor bean (4.6-fold coverage)
57 Here we report the
draft genome sequence of Clostridium difficile strain CD
58 In this study, we generated a
draft genome sequence of cyanobacteria Trichormus sp. NM
59 We report herein the
draft genome sequence of M. abscessus strain 47J26.
60 The
draft genome sequence of Mannheimia haemolytica A1, the
61 Here we present the
draft genome sequence of Methylophaga thiooxydans DMS010
62 Here we construct a
draft genome sequence of mungbean to facilitate genome r
63 We present the
draft genome sequence of P. aeruginosa strain PABL056, a
64 Here we report the
draft genome sequence of Paenibacillus polymyxa OSY-DF.
65 Here we report the
draft genome sequence of Paenibacillus sp. OSY-SE.
66 Here we report the
draft genome sequence of perennial ryegrass (Lolium pere
67 A
draft genome sequence of PHS-1 was completed and an arx
68 Here we present the unclosed,
draft genome sequence of Planococcus donghaensis strain
69 We report here the 6.97-Mb
draft genome sequence of Pseudomonas fluorescens strain
70 Through bioinformatic analysis of a
draft genome sequence of R. albus 8, seventeen putativel
71 We present the 5-Mb
draft genome sequence of R. gelatinosus CBS with the goa
72 The
draft genome sequence of S. commersonii substantially in
73 We report herein the
draft genome sequence of septic arthritis K. kingae stra
74 Here, we report the
draft genome sequence of Solanum commersonii, which cons
75 Here we report the
draft genome sequence of spinach (Spinacia oleracea, 2n=
76 The
draft genome sequence of strain CD37 reveals the presenc
77 Here we report the
draft genome sequence of strain HK44.
78 characterize the breakdown of SI, we built a
draft genome sequence of T. coronopifolia, genotyped F2
79 The recently completed
draft genome sequence of T. vaginalis provides an invalu
80 In an accompanying paper we describe the
draft genome sequence of the chicken, Gallus gallus, the
81 Here we report a high-quality
draft genome sequence of the domestic dog (Canis familia
82 Here we report a
draft genome sequence of the hexaploid species E. crus-g
83 We present the high-quality
draft genome sequence of the Opitutaceae bacterium strai
84 A
draft genome sequence of the plant pathogen Streptomyces
85 We present a
draft genome sequence of the platypus, Ornithorhynchus a
86 We report the
draft genome sequence of the red harvester ant, Pogonomy
87 We present here a
draft genome sequence of the red jungle fowl, Gallus gal
88 We present the
draft genome sequence of the type strain Moritella marin
89 Here, we exploit the available
draft genome sequence of the unicellular green alga Chla
90 A
draft genome sequence of this uncultured bacterium was o
91 We report a
draft genome sequence of Trichinella spiralis, a food-bo
92 Here we report a 39.4 Mb
draft genome sequence of U. virens that encodes 8,426 pr
93 Here, we describe the
draft genome sequence of Vibrio fischeri SR5, a squid sy
94 In this study, we have generated
draft genome sequences of 15 strains of B. oklahomensis,
95 Jelly and long PacBio reads, we upgraded the
draft genome sequences of a simulated Drosophila melanog
96 Here we present the
draft genome sequences of a wild ancestor and a domestic
97 We report the high quality
draft genome sequences of Bombus terrestris and Bombus i
98 Herein we present the complete
draft genome sequences of four geographically diverse st
99 We report the annotated
draft genome sequences of four serotype 6C Streptococcus
100 We announce
draft genome sequences of NW and D2600 to facilitate com
101 Here, we report the complete and
draft genome sequences of six new members of the Aquific
102 otide polymorphisms (SNPs) were found on the
draft genome sequences of strain H7858 and strain F6854,
103 We report the
draft genome sequences of the collection referred to as
104 comparative analysis of one complete and two
draft genome sequences of the phytopathogenic bacterium,
105 However,
draft genome sequences of the spore-forming members of t
106 With the completion of the
draft genome sequences of these pathogens in collaborati
107 We used the
draft genome sequences of three oomycete plant pathogens
108 Here we report the
draft genome sequences of two acorn worms, Saccoglossus
109 The recent release of
draft genome sequences of two of the major human schisto
110 We present
draft genome sequences of two S. aureus hybrids of seque
111 Draft genome sequences of white spruce and other conifer
112 This
draft genome sequence provides a resource for engineerin
113 for fruit-tree functional genomics, and this
draft genome sequence provides the foundation for reveal
114 have little similarity to anything found in
draft genome sequences,
published here, for strains H1 a
115 Analysis of a
draft genome sequence revealed multiple pathways for res
116 d generation and analysis of a high-coverage
draft genome sequence revealed the presence of a circula
117 uence tags (ESTs) and sections of the public
draft genome sequence that were available at different t
118 Although a
draft genome sequence was completed in 2007, there has b