ライフサイエンスコーパス: gene isolation

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1 icum aestivum), with reference to methods of gene isolation.

2 BAC into a TAR vector, thus allowing direct gene isolation.

3 e vectors that are suboptimal substrates for gene isolation.

4 designer that implements a new strategy for gene isolation.

5 d DNA for more detailed physical mapping and gene isolation.

6 15% DNA divergence did not prevent efficient gene isolation.

7 Gene isolation, amplification, or ligation is not necess

8 To devise a method for function-based gene isolation and characterization in barley, we create

9 assist in genome sequence assembly, targeted gene isolation and comparative genomic analyses among gr

10 ribflies and will be a valuable resource for gene isolation and genomic studies in tephritid insects.

11 cting chromosomal rearrangements, for use in gene isolation, and as a framework for physical mapping.

12 in a vector is a prerequisite for efficient gene isolation by TAR cloning.

13 mal length of a unique sequence required for gene isolation by TAR is approximately 60 bp.

14 ed into a sorghum physical map for map-based gene isolation, comparative genome analysis, and as a so

15 olving dense genetic maps, physical mapping, gene isolation, comparative genomics, analysis of quanti

16 Although recent gene isolation efforts and metabolic engineering have pr

17 affinity method that is uniquely suited for gene isolation from a highly degenerate collection of nu

18 gion with DNA markers, TRS should facilitate gene isolation from diverse organisms and accelerate the

19 nd the implications of such conservation for gene isolation from the major cereal crops.

20 nous transposable elements, useful tools for gene isolation, have not been reported from any legume s

21 vide new ways to accelerate fine-mapping and gene isolation in crops.

22 Clones from this contig will facilitate gene isolation in the region and can be used directly as

23 The final stage of map-based gene isolation is complementation of the mutant phenotyp

24 Gene isolation may exploit the small genome of rice in m

25 Gene isolation methods used during positional cloning re

26 arker-assisted trait selection and map-based gene isolation necessary for cowpea improvement.

27 Because no gene isolation or amplification is required for sequenci

28 Using two independent gene-isolation procedures, we isolated a new catenin fam

29 We used virtual subtraction, a new gene isolation strategy, to isolate several genes of int

30 Because of the variety of gene isolation techniques used, this result is unlikely

31 is transposon could prove to be an efficient gene isolation tool in sorghum.

32 minimal size of a specific hook required for gene isolation utilizing the Tg.AC mouse transgene as a

33 bination of positional cloning and candidate-gene isolation, we have identified the HY1 gene and foun

34 jannaschii can serve as a starting point for gene isolation, while in vivo genetics in the mesophilic

35 d of the rice genome as a tool to facilitate gene isolation will differ from one region to the next,

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