ライフサイエンスコーパス: ray-finned fish

1 ed fishes and tetrapods) and Actinopterygii (ray-finned fishes).

2 ups (though lost in frogs, amniotes and most ray-finned fishes).

3 tetrapods but is absent in the fin bones of ray-finned fish.

4 nuclear elements) more than they do those of ray-finned fish.

5 in the paddlefish Polyodon spathula, a basal ray-finned fish.

6 ertebrates, is not found in cartilaginous or ray-finned fish.

7 eurons also originate in the hindbrain among ray-finned fish.

8 ergone marked morphological evolution in the ray-finned fish.

9 r to those of land vertebrates than those of ray-finned fish.

10 st metazoan mitoribosomes, with exception of ray-finned fish.

11 wildi, an approximately 319-million-year-old ray-finned fish.

12 e influenza virus potentially circulating in ray-finned fish.

13 ntral species for the genomic exploration of ray-finned fishes.

14 different levels of the phylogenetic tree of ray-finned fishes.

15 n synovial joints, Prg4/Lubricin, in diverse ray-finned fishes.

16 nidarians, arthropods, and cartilaginous and ray-finned fishes.

17 e evolution of high-power suction feeding in ray-finned fishes.

18 on that existed in the brain of the earliest ray-finned fishes.

19 the distribution of these molecules in other ray-finned fishes.

20 wing the separation of polypterids and other ray-finned fishes.

21 the separation between polypterids and other ray-finned fishes.

22 ural characters that existed in the earliest ray-finned fishes.

23 h the distribution of this molecule in other ray-finned fishes.

24 is more closely related to tetrapods than to ray-finned fishes.

25 y itself, spurs rapid diversification across ray-finned fishes.

26 about 16,000 species of actinopterygian, or ray-finned, fishes.

27 s key evidence for the relationships between ray-finned fishes(1), but two major limitations obscure

28 s on the origin of traits uniting all extant ray-finned fishes(1,9).

29 logenomic and ecomorphological data for 1051 ray-finned fishes, a time-dependent evolutionary model,

30 The 30,000 or so ray-finned fishes (actinopterygians) are the most divers

31 Center for Biotechnology Information (NCBI) ray-finned fish ( Actinopterygii ) database, resulting i

32 d, and they have been variously aligned with ray-finned fish (Actinopterygii) or lobe-finned fish (Sa

33 d the ecological and evolutionary success of ray-finned fishes (Actinopterygii) are large teeth and h

34 Modern ray-finned fishes (Actinopterygii) comprise half of exta

35 Ray-finned fishes (Actinopterygii) comprise nearly half

36 Paleozoic ray-finned fishes (Actinopterygii), relatives of teleost

37 gen-dependent HIFalpha subunit (HIFA) in the ray-finned fishes (Actinopterygii).

38 Derived ray-finned fishes (Actinopterygii, Teleostei) such as ze

39 Multiple freshwater ray-finned fishes also show a convergent increase in Fad

40 ement as the most basal living member of the ray-finned fish and rule out its classification as a lob

41 rtebrate clades (amphibians, birds, mammals, ray-finned fish and squamate reptiles) at two phylogenet

42 onary history, finding that chondrichthyans, ray-finned fish and testudines rank highest of all jawed

43 tebrates with paired appendages, differ from ray-finned fish and tetrapods in having Sonic hedgehog (

44 ecific regulatory DNA, and Shh function with ray-finned fish and tetrapods.

45 Acipenseriformes is a basal lineage of ray-finned fishes and comprise 27 extant species of stur

46 parable histological structures in undoubted ray-finned fishes and conclude that they are general ost

47 selected 500 independent nuclear markers for ray-finned fishes and designed a three-step pipeline for

48 the different parts of the telencephalon of ray-finned fishes and other vertebrates difficult.

49 Conversely, ray-finned fishes and tetrapodomorphs, morphologically d

50 ast, the major groups of living vertebrates--ray-finned fishes and tetrapods--show surprisingly conse

51 te phylogenetic position of lungfish between ray-finned fishes and tetrapods.

52 e subdivisions of the adult telencephalon of ray-finned fishes and their relation to nuclei in the te

53 first appears in Class Actinoptergyii (bony ray-finned fishes) and is present across the entire Acti

54 haline temnospondyls, coelacanths, lungfish, ray-finned fish, and sharks formed an unexpectedly compl

55 rast, flt3lg orthologs were not retrieved in ray-finned fish, and the gene locus exhibited more varia

56 brates ancestral to both the mammals and the ray-finned fishes, and (ii) raise the possibility that t

57 fungi, arachnids, malacostracan crustaceans, ray-finned fishes, and amphibians.

58 estigated in three animal classes: bivalves, ray-finned fishes, and birds.

59 resent the earliest diverged living group of ray-finned fishes, and possess intriguing traits otherwi

60 hes are believed to be basal to other living ray-finned fishes, and their brain organization is there

61 Nearly all ray-finned fishes are teleosts, which include most comme

62 straints on brain morphology in the earliest ray-finned fishes beyond the coarse picture provided by

63 d independently in sound-producing organs in ray-finned fish, birds, and mammals, and that SFM phenot

64 owering plants, marine invertebrate fossils, ray-finned fishes, British birds and moths, North Americ

65 arine animals (cnidarians, cartilaginous and ray-finned fishes) but we know comparatively little abou

66 fishes is generally similar to that in other ray-finned fishes, but cholinergic-positive neurons in t

67 ales produce less motile and slower sperm in ray-finned fishes, but larger ejaculates in insects, com

68 stem has been characterized in more advanced ray-finned fishes, but not in polypterids.

69 n polypteriform fishes are shared with other ray-finned fishes, but other positive structures appear

70 dates and before the divergence of lobe- and ray-finned fishes, but the exact timing remains obscure.

71 oth OC and MGP from the Adriatic sturgeon, a ray-finned fish characterized by a slow evolution and th

72 inally, histological and microCT analyses of ray-finned fish dermal armor show that their scales and

73 the former underestimates ages of the oldest ray-finned fish divergences, but the latter dramatically

74 oincided with the evolution of endothermy in ray-finned fishes during the Eocene-Miocene.

75 ons is thus critical to our understanding of ray-finned fish evolution, but it is poorly understood,

76 nteny changes and tuning site changes during ray-finned fish evolution.

77 Phylogenetic analyses reveal that ray-finned fish FLERVs exhibit an overall co-speciation

78 on and analyses reveal two major lineages of ray-finned fish FLERVs, one of which had gained two nove

79 e studied the evolution of opsin genes in 59 ray-finned fish genomes.

80 The mormyrid cerebellum, as in all ray-finned fishes, has three subdivisions--valvula, corp

81 Ray-finned fishes have broken functional constraints by

82 Ray-finned fishes have evolved a wide spectrum of caudal

83 nto four clusters (Hoxa-Hoxd); however, some ray-finned fishes have extra Hox clusters.

84 y growth equations to characterize growth of ray-finned fishes in terms of two parameters, the growth

85 in the last common ancestor of tetrapods and ray-finned fish lacked the ability to form ectomesenchym

86 anisms that evolved before the divergence of ray-finned fishes lacked PH-TH dimerization but had acti

87 st evolved as vertebrates came to land, with ray-finned fishes lacking lubricated joints.

88 In the ray-finned fish lineage, while the DPHK is maintained in

89 the result of a duplication event within the ray-finned fish lineage.

90 t in a well-supported phylogeny of all major ray-finned fish lineages and molecular age estimates tha

91 Ray-finned fishes make up half of all living vertebrate

92 In ray-finned fishes, mouth expansion is both fast and forc

93 extinctions among the thousands of genera of ray-finned fishes (n = 4; 0.08%), squamate reptiles (n =

94 pterygian crown group (comprising all living ray-finned fishes) originated by the end of the Carbonif

95 des a window into neural anatomy deep within ray-finned fish phylogeny.

96 lateral line system development in the basal ray-finned fish Polyodon spathula, and present fate-mapp

97 ts of the early history of actinopterygians (ray-finned fishes) posit that the end-Devonian mass exti

98 Although progesterone activates MRs in ray-finned fish, progesterone does not activate MRs in h

99 found that Polypterus, the most basal living ray-finned fish, regenerates its pectoral lobed fins wit

100 Among actinopterygians (ray-finned fishes), regeneration after amputation at the

101 lysis places Meemannia as an early-diverging ray-finned fish, resolving it as the sister lineage of C

102 Small, fast-breeding ray-finned fishes, sharks, and tetrapods, most under 1 m

103 Particularly the everted telencephalon of ray-finned fishes shows a noticeably different morpholog

104 Telencephalic evolution in ray-finned fishes shows increasing complexity from polyp

105 stablished that the Hox gene organization of ray-finned fishes, such as the zebrafish, differs dramat

106 increase in size and numerical abundance of ray-finned fish teeth at the boundary.

107 the globe: Whereas shark denticles outnumber ray-finned fish teeth in Cretaceous deep-sea sediments a

108 is a dramatic increase in the proportion of ray-finned fish teeth to shark denticles in the Paleocen

109 NA genes have greater sequence similarity to ray-finned fish than to either lamprey or lungfish.

110 let sturgeon, a representative of nonteleost ray-finned fish that has retained an extensive postcrani

111 The bowfin (Amia calva) is a ray-finned fish that possesses a unique suite of ancestr

112 olution across the 30,000+ living species of ray-finned fishes that comprise the majority of vertebra

113 ropefish) are extant basal actinopterygian (ray-finned) fishes that breathe air and share similariti

114 differential RNA-seq in an electroreceptive ray-finned fish, the Mississippi paddlefish.

115 ic neural centers characterized the earliest ray-finned fishes, the distribution of choline acetyltra

116 te the economic and scientific importance of ray-finned fishes, the lack of a single comprehensive ph

117 ebrate gene order which is also found in all ray-finned fishes, the lungfish, and most tetrapods.

118 (sharks, skates, rays) and actinopterygians (ray-finned fishes) to the fish community across the K-Pg

119 ome from Siberia previously interpreted as a ray-finned fish, which provides important new informatio

120 The paddlefish is a passive electrosensory ray-finned fish with a special rostral appendage that is