ライフサイエンスコーパス: immunolabelling

1 ltaneously to characterize these vesicles by immunolabelling.

2 he ON-BC dendritic tips, albeit with reduced immunolabelling.

3 eptide- and nicotinic acetylcholine receptor-immunolabelling.

4 Immunolabelling analysis and ultrastructural observation

5 peptidase in Escherichia coli, was mapped by immunolabelling and by visualization of GFP fusion prote

6 Immunolabelling and Ca(2+) imaging experiments revealed

7 hat were accompanied with viral protein (I3) immunolabelling and detection of over 125 MPXV-encoded p

8 opment we combined fate-mapping of ENCC with immunolabelling and intravascular dye injection to visua

9 We used a combination of immunolabelling and RNA/DNA fluorescence in situ hybridi

10 In all these areas, immunolabelling appeared specific since it was abolished

11 s) rats by immunoblotting and post-embedding immunolabelling at electron microscope level.

12 SUMO1 knock-out mice showed that anti-SUMO1 immunolabelling at synapses is non-specific.

13 In situ hybridization, immunolabelling, cell tracking and transcriptomic analys

14 he neuropil of hippocampus, with patterns of immunolabelling characteristic enough to suggest the dia

15 mal glands on the basis of their morphology, immunolabelling characteristics and gene expression patt

16 By contrast, immunolabelling data have shown that Purkinje cells from

17 Immunolabelling demonstrated a high density of PDGFRalph

18 Immunolabelling demonstrated TMC1 throughout the stereoc

19 Myelin basic protein and neurofilament immunolabelling demonstrates that axons in these adjacen

20 ell function and neoplasia we have performed immunolabelling experiments to determine their subcellul

21 imaging and computer graphic reconstruction, immunolabelling, flow cytometry, transcriptomic, proteom

22 Double-immunolabelling for poly(ADP-ribose) and markers of neur

23 Double immunolabelling for poly(ADP-ribose) and microtubule-ass

24 Double-immunolabelling for poly(ADP-ribose) and tau or A beta-p

25 es of mdx mice was associated with increased immunolabelling for utrophin and beta-dystroglycan in th

26 Increases in sarcolemmal immunolabelling for utrophin and beta-dystroglycan sugge

27 logical evidence on decreased neuronal LMTK2 immunolabelling in AD, with implications for pathogenesi

28 By immunolabelling in mouse testes we show that TGIF is exp

29 t not Kv3.1) reduced presynaptic Kv3 channel immunolabelling, increased presynaptic AP duration and f

30 Immunolabelling localised DRP2A/B to the tips of root ha

31 Post-embedding immunolabelling methods were applied to semi-thin and ul

32 muscle regeneration at the protein level by immunolabelling muscle biopsies for developmental myosin

33 Immunolabelling of 12 weeks old skin specimens showed st

34 Her skeletal muscle biopsy showed reduced immunolabelling of alpha-dystroglycan.

35 ction in hexaploid wheat (2n = 42) by triple immunolabelling of CENH3 protein marking functional cent

36 co-expression with DsRed fusions along with immunolabelling of stably transformed BY2 cells indicate

37 We optimize immunolabelling of tail epidermal wholemounts to allow s

38 In each patient, immunolabelling of the neuromuscular junction for rapsyn

39 Immunolabelling of the recellularised scaffolds demonstr

40 r findings in a spatial context, we utilized immunolabelling of the same tissues.

41 In aged rats, immunolabelling patterns and the density of immunogold p

42 we show that by using specific intracellular immunolabelling protocols, FACS separation of interphase

43 ia expressed intimin, and of those that did, immunolabelling revealed a uniform distribution of intim

44 Immunolabelling revealed ANO1 was expressed in USMC and

45 Double immunolabelling revealed numerous GLP-1-IR nerve fibers

46 Such immunolabelling revealed one or more regenerating myofib

47 Immunolabelling revealed reduced density of sensory (CGR

48 However, double immunolabelling revealed that TFAM was reduced in neuron

49 Immunolabelling revealed that the barley nucellus compri

50 Critically, immunolabelling shows the dynamics of these presynaptic

51 Immunolabelling studies demonstrated that the immediate

52 Immunolabelling studies revealed qualitatively normal di

53 In double-immunolabelling studies, histamine fibres were found in

54 tor (M(3)AChR) and lysosomes was examined by immunolabelling techniques.

55 brain changes or abnormal alpha-dystroglycan immunolabelling, unlinked to any reported CMD loci.

56 Immunolabelling was also evident beneath the plasma memb

57 prelimbic cortex (area 32), a gradient of CN immunolabelling was found in the somata and processes of

58 GluA2 immunolabelling was stronger in MCs than in BCs.

59 Intercalated disk morphology and connexin 43 immunolabelling were not different in hypertrophy.

60 Highest levels of immunolabelling were observed in the anterior, amygdalo-

61 ciated with isolated ADTKD was studied using immunolabelling, Western blotting, targeted RNA-seq and

62 ese terminals to Renshaw cells, we used dual immunolabelling with antibodies against gephyrin or calb

63 Immunolabelling with antibodies against Sm proteins show

64 Double immunolabelling with CRH antiserum revealed that CART in

65 Retrograde labelling and dual immunolabelling with nNOS revealed that those AT1R-immun

66 eport on the expression of this new protein: immunolabelling with the antibody (designated NCL-hamlet