ライフサイエンスコーパス: Rosaceae

1 n for 177 species in the Potentilleae tribe (Rosaceae).

2 n in a widespread plant, Argentina anserina (Rosaceae).

3 tionships and the diversification history of Rosaceae.

4 ight be useful to interpret GSI evolution in Rosaceae.

5 ce unigene sets of each genus and the entire Rosaceae.

6 metophytic self-incompatibility locus in the Rosaceae.

7 plants-the Solanaceae, Scrophulariaceae, and Rosaceae.

8 s from the Scrophulariaceae, Solanaceae, and Rosaceae.

9 .200), a key enzyme in sorbitol synthesis in Rosaceae.

10 especially in gymnosperms and species of the Rosaceae.

11 and integrated genetics and genomics data of Rosaceae, an economically important family which include

12 type 1 RIPs (like those from Cucurbitaceae, Rosaceae and Iridaceae) or lectins without A chain (like

13 hat will serve as a useful reference for the Rosaceae and Rubus fruit crops (raspberry, blackberry, a

14 Self-incompatibility (SI) in the Solanaceae, Rosaceae and Scrophulariaceae is controlled by the polym

15 In the Solanaceae, Rosaceae and Scrophulariaceae, two separate genes at the

16 d near to the S-RNase gene in members of the Rosaceae and Scrophulariaceae; but until now have not be

17 a representing all subfamilies and tribes of Rosaceae and six of the other eight families of Rosales

18 alusxdomestica Borkh., belongs to the family Rosaceae and subfamily Maloideae and has a genome size o

19 om the S-RNase sequences from Solanaceae and Rosaceae, and also from most known "S-like" RNase sequen

20 In species of the Solanaceae, Rosaceae, and Scrophulariaceae, the inhibiting factor is

21 self-incompatible plants of the Solanaceae, Rosaceae, and Scrophulariaceae.

22 d peanut; (iv) 'PR-10 PFS': OAS triggered by Rosaceae; and (v) 'no-panallergen PFS': mild disease and

23 e synteny analysis of the M-locus within the Rosaceae are here reported.

24 lter) Fernald var. vulgaris (Maxim.) H.Hara (Rosaceae), collected from the wild and used as vegetable

25 of genomic resources for the strawberry and Rosaceae communities as well as unprecedented molecular

26 In recent years, the Rosaceae community, both in the United States and intern

27 psis of the resources and initiatives of the Rosaceae community, recent developments in Rosaceae geno

28 The plant family Rosaceae consists of over 100 genera and 3,000 species t

29 highest versus lowest quintiles of intake of rosaceae, convolvulaceae, and umbelliferae were 0.82 (95

30 nnotated databases of all publicly available Rosaceae ESTs, the genetically anchored peach physical m

31 equence not only for any member of the large Rosaceae family, but also for all tree species.

32 Prunus mume Sieb. et Zucc., belonging to the Rosaceae family, produces as defensive agents the cyanog

33 nald is an herbaceous plant belonging to the Rosaceae family.

34 ndividual sugar composition; examples of non-Rosaceae fruit and prepared foods containing sugar alcoh

35 berry (Fragaria x ananassa) as well as other Rosaceae fruit crops due to its short seed-to-fruit cycl

36 We are hopeful that this review will clarify Rosaceae fruit sugar alcohol concentrations and individu

37 tion of Rubus fruit, other commonly consumed Rosaceae fruit, and additional fruits (24 genera and spe

38 -mediated plant food allergy to hazelnut and Rosaceae fruits.

39 The Genome Database for Rosaceae (GDR) is a central repository of curated and in

40 The Genome Database for Rosaceae (GDR), the long-standing central repository and

41 rphisms, mapped genetic markers, mapped NCBI Rosaceae genes, gene homologs and association of InterPr

42 the genetically anchored peach physical map, Rosaceae genetic maps and comprehensively annotated mark

43 Most of the published Rosaceae genetic maps can be viewed and compared through

44 and Prunus predict a hypothetical ancestral Rosaceae genome that had nine chromosomes.

45 BAC-end sequences (BES) were blasted against Rosaceae genomes to perform micro-synteny analysis.

46 e Rosaceae community, recent developments in Rosaceae genomics, and plans to apply newly accumulated

47 Phylogenetic relationships in Rosaceae have long been problematic because of frequent

48 ns a wide range of commercial and ornamental Rosaceae host plants.

49 The family Rosaceae includes many agriculturally important fruit an

50 (Rosaceae) is a native species occurring in the Patagonia

51 The Chilean raspberry Rubus geoides Sm. (Rosaceae) is a native species occurring in the Patagonia

52 Peach (Prunus persica, Rosaceae) is an extremely popular tree fruit worldwide,

53 , a vernalisation-requiring accession of the Rosaceae model woodland strawberry (Fragaria vesca) has

54 GDR is available at http://www.rosaceae.org.

55 miaceae p.p.), orchids (Orchidaceae), roses (Rosaceae p.p.), saxifrages (Saxifragales), and violets (

56 Genetic analyses of six natural sour cherry (Rosaceae, Prunus cerasus) selections identified seven in

57 tern United States, native species of Rubus (Rosaceae) reproduce sexually whereas exotic naturalized

58 tral repository and data mining resource for Rosaceae research, has been enhanced with new genomic, g

59 tral repository and data mining resource for Rosaceae research, has been enhanced with new genomic, g

60 t differs markedly in the two families, with Rosaceae S-alleles exhibiting more recent apparent coale

61 e perennial wild strawberry, Fragaria vesca (Rosaceae), short-day and perpetual flowering long-day ac

62 (-1)) of amygdalin compared to seed from non-Rosaceae species (range 0.01-0.2 mg g(-1)).

63 is the first report of DNA methylation in a Rosaceae species and appears to be strongly associated w

64 uences was found to be much lower in the two Rosaceae species as compared with the Solanaceae.

65 Our results show that seed from Rosaceae species contained relatively high amounts (rang

66 e as a major translocatable photosynthate in Rosaceae species, sorbitol is a widespread compatible so

67 The Genome Database for Rosaceae, the long-standing central repository and data

68 Rosaceae were estimated to have originated during the La