ライフサイエンスコーパス: plant lectin

1 n of internal alpha1,3-glucosidic bonds by a plant lectin.

2 s in the binding properties toward different plant lectins.

3 amster ovary (CHO) cell mutants resistant to plant lectins.

4 tin-1, its two mutants, and the Gal-specific plant lectins.

5 The glycans were interrogated using plant lectins and antibodies in sera from mice infected

6 these findings for possible in vivo roles of plant lectins and for the use of concanavalin A as a res

7 of glycan-binding proteins (GBPs) including plant lectins and selected anti-glycan antibodies toward

8 tions with glycan-binding proteins including plant lectins, antiganglioside antibodies, bacterial tox

9 cell surface glycoconjugates recognized by a plant lectin are selectively associated with these "reti

10 Overall, we find that conjugated plant lectins are effective tools for combinatory bioche

11 influenza virus hemagglutinins, siglecs, and plant lectins are largely unaffected by adjacent interna

12 Plant lectins are useful targets for biophysical studies

13 In addition, the plant lectin Bandeiraea simplicifolia-I was employed to

14 Unlike other plant lectins, both DGL and ConA bind with high affinity

15 AB)-labeled glycans were probed with various plant lectins, C-type lectins, sialic-acid specific lect

16 Our studies demonstrate that a plant lectin can serve as a transneuronal tracer when it

17 the selective binding of the polymers to the plant lectin concanavalin A.

18 sugar-binding protein receptors such as the plant lectins concanavalin A and the highly toxic mistle

19 weakly charged molecule, by displacement of plant lectin (concavalin A) bound to a polysaccharide (d

20 with concanavalin A (ConA), a member of the plant lectin family.

21 assay was used to screen PS-SGCL against two plant lectins, Glycine max soybean agglutinin and Vicia

22 Plant lectins have been implicated as playing an importa

23 re defined by cell body size, binding of the plant lectin IB(4) and responsiveness to the algogenic c

24 The new array was first tested with several plant lectins, including concanavalin A (conA), Vicia vi

25 from primary sensory afferents that bind the plant lectin isolectin B4 (IB4).

26 tudy demonstrated that the O-glycan-specific plant lectin jacalin binds Dsg1 and inhibits the interac

27 mass spectroscopy and FACS analysis with the plant lectin l-phytohemagglutinin.

28 Some plant lectins like Griffonia simplicifolia lectin I and

29 bes for sialic acid-binding proteins such as plant lectin MAL II, which bond strongly to sialyl T ant

30 dly, hCK glycoproteins bound robustly to the plant lectin MAL-1, indicating alpha2,3-Sia glycans, but

31 ns, via fusion to a second protein such as a plant lectin or a luteovirus coat protein for transcytos

32 Interestingly, another plant lectin, peanut agglutinin, which shares the same c

33 Similar to plant lectins, pertussis toxin (PTx) can activate the TC

34 LR4 was activated by a non-LPS stimulus, the plant lectin PHA.

35 anterograde axonal tracing method using the plant lectin Phaseolus vulgaris leucoagglutinin (PHA-L)

36 he human macrophage galactose-type lectin, a plant lectin, Pisum sativum agglutinin, and the bacteria

37 Although it has been proposed that plant lectins play a number of roles, the function of th

38 Gal-1 and the plant lectins possess essentially the same affinities fo

39 Here we investigate the plant lectin RTB as a novel carrier for human lysosomal

40 ttern of binding of two sialic acid-specific plant lectins, Sambucus nigra agglutinin and Maackia amu

41 Plant lectins such as phytohemagluttinin (PHA) can activ

42 This contrasts with galectin-1 and many plant lectins that form homogeneous, organized cross-lin

43 easibility of high throughput screening with plant lectins to identify compounds that alter muscle ce

44 ed the spatial distribution of two different plant lectins, Ulex europaeus agglutinin (UEA) and Dolic

45 In contrast, the plant lectin vicia villosa-B4 (VVL-B4), which shares the

46 ster ovary cells and four galactose-specific plant lectins were investigated by isothermal titration

47 urpurea agglutinin, a Gal and GalNAc binding plant lectin, were isolated from 17 strains by anion exc

48 We used high throughput screening with the plant lectin Wisteria floribunda agglutinin (WFA) to ide

49 n, a naturally occurring, galactose-specific plant lectin with extremely potent shiga toxin-like enzy

50 riments using succinylated concanavalin A, a plant lectin with high affinity for mannose, revealed th