ライフサイエンスコーパス: kangaroo

1 ) was found in all products except camel and kangaroo.

2 ematics and kinetics of hopping red and grey kangaroos.

3 No Neu5Gc was detected in kangaroo and dog muscles; (2) total Neu5Gc in organ meat

4 tudy should benefit both the endangered tree kangaroo and humans with immunosuppressive disorders tha

5 ll species tested except simian primates and kangaroo and that retroposons are common to a wide range

6 supial species (two macropodiformes, the red kangaroo and the parma wallaby, and a vombatiform, the k

7 Isolates of MAC organisms from affected tree kangaroos and from their environment had no common restr

8 he largest extant species of marsupials, the kangaroos and wallabies, have a very different reproduct

9 human RPE-1, approximately 80% in PtK2 (rat kangaroo), and approximately 25% in mouse cells, and thi

10 PAT and kangaroo both contain split direct repeat (SDR) termini,

11 We used the Kangaroo Care (KC) intervention and provided maternal-ne

12 l care, consisting of support for lactation, kangaroo care, and routine developmental therapies, or t

13 ortunistic in humans and other mammals, tree kangaroos commonly develop primary progressive disease w

14 All samples except kangaroo contained 25(OH)D(3); some camel samples contai

15 ntained a breeding colony of Matschie's tree kangaroos (Dendrolagus matschiei) since 1975 with a docu

16 eeds, but may limit the performance of large kangaroos due to the risk of tendon rupture.

17 Phylogenetic analysis indicates that kangaroo elements are closely related to other unorthodo

18 kangaroo elements are highly mobile and their expression

19 (LC-QQQ) in raw meat (camel, crocodile, emu, kangaroo), emu eggs and emu oil.

20 Samples of kangaroo, emu, squid/calamari and lobster/crayfish were

21 d the genomic structure and evolution of the kangaroo endogenous retrovirus (KERV) in the marsupial g

22 relative copy number and distribution of the kangaroo endogenous retrovirus in the Macropus genus.

23 Our data indicate that amplification of the kangaroo endogenous retrovirus occurred in a lineage-spe

24 The complete proviral structure of the kangaroo endogenous retrovirus, phylogenetic relationshi

25 Hopping kangaroos exhibit remarkably little change in their rate

26 terization of a novel retrotransposon called kangaroo from the multicellular green alga, Volvox carte

27 Surprisingly, kangaroo hindlimb posture changes appeared to contribute

28 tury New Guinean dingoes, a mid-19th-century kangaroo hound, and 33 contemporary dingoes from across

29 ver, from the well-researched and endangered Kangaroo Island echidna population, we understand that t

30 For many cell types, however, including rat kangaroo kidney PtK(1) cells, the MI does not increase d

31 laser cuts across Potorous tridactylus (rat kangaroo) kidney (PtK2) cell half-spindles.

32 Kangaroo meat and offal were largely devoid of vitamin D

33 loMix also worked well on a real data set of kangaroo mitochondrial DNA sequences.

34 99 kg who were assigned to receive immediate kangaroo mother care (intervention) or conventional care

35 of the key biological pathways through which kangaroo mother care (KMC) improves health outcomes in l

36 Kangaroo mother care (KMC) is effective in improving sur

37 (within 1 h), neonatal bag-mask ventilation, kangaroo mother care (KMC), and antibiotics for clinical

38 WHO recommends kangaroo mother care (KMC); however, its effects on mort

39 ta for evidence-based interventions, such as Kangaroo Mother Care and care seeking for newborn infect

40 between-group difference favoring immediate kangaroo mother care at 72 hours was not significant.

41 0 and 1.799 kg, those who received immediate kangaroo mother care had lower mortality at 28 days than

42 an those who received conventional care with kangaroo mother care initiated after stabilization; the

43 The safety and efficacy of kangaroo mother care initiated soon after birth among in

44 warmer until their condition stabilized and kangaroo mother care thereafter (control).

45 For example, the implementation of kangaroo mother care was noted as challenging in the fou

46 "Kangaroo mother care," a type of newborn care involving

47 mortality among infants receiving immediate kangaroo mother care.

48 s study, we created a three-dimensional (3D) kangaroo musculoskeletal model, integrating 3D motion ca

49 ucted fluorescence microscopy studies on rat kangaroo (PtK) and human (RPE1) cells dividing in the pr

50 otivated its division in 1997 into the agile kangaroo rat (AKR, D. agilis, 2N = 62) in the north of i

51 he effects of a keystone engineer, the giant kangaroo rat (Dipodomys ingens), on plants, invertebrate

52 orth of its range in California, and Dulzura kangaroo rat (DKR, D. simulans, 2N = 60) to the south, w

53 eparated the effects of burrow creation from kangaroo rat density and found that kangaroo rats increa

54 Karyotype variation within Pacific kangaroo rat Dipodomys agilis motivated its division in

55 he Mojave Desert in North America, Merriam's kangaroo rat Dipodomys merriami and the sidewinder rattl

56 njection into the cytoplasm of single living kangaroo rat kidney cells (PtK2 cells), the MB hybridize

57 ht adult and captive-born adult and juvenile kangaroo rats (Dipodomys heermanni arenae) to a live sna

58 scutulatus) attempting to capture Merriam's kangaroo rats (Dipodomys merriami).

59 r data from a 17-year study of banner-tailed kangaroo rats (Dipodomys spectabilis) to quantify the re

60 We measured T(b) in banner-tailed kangaroo rats (Dipodomys spectabilis) to test and disent

61 objective was to determine if the tendons of kangaroo rats (k-rat), small bipedal animals that can ju

62 akes have heat sensing organs (pits) and the kangaroo rats have fur-lined cheek pouches that allow fo

63 ion from kangaroo rat density and found that kangaroo rats increased the diversity and abundance of o

64 condition over the entire study, indicating kangaroo rats offset decreases in energy intake through

65 The kangaroo rats were capable of harvesting far greater amo

66 For almost 20 years after kangaroo rats were experimentally removed from a Chihuah

67 tion on plants, ants, beetles, orthopterans, kangaroo rats, ground squirrels and lizards.

68 ompensated almost completely for the missing kangaroo rats.

69 amin D(2) was found in emu products and some kangaroo samples.

70 race amounts of 25(OH)D(2) in some camel and kangaroo samples.

71 citation, thermoregulation, breast-feeding, "kangaroo" [skin-to-skin] care, care of the small baby, a

72 collagen as a benchmark, we apply our novel kangaroo tail tendon collagen as an alternative collagen

73 ge and return could be a key factor enabling kangaroos to achieve energetic benefits at faster hoppin

74 supial suborder Macropodiformes (present-day kangaroos, wallabies, and related macropodoids), to the

75 Within family Macropodidae (kangaroos, wallabies, bettongs, and potoroos), which exh

76 immune reactivity in apparently healthy tree kangaroos was 3- to 6-fold lower than in humans and othe

77 f marsupials, the macropodids (wallabies and kangaroos), with placentation lasting beyond the 2 to 4