ライフサイエンスコーパス: byssus

1 t is controlled by a delicate apparatus, the byssus.

2 and a potential Co(II)-mfp-1 complex in the byssus.

3 we their tenacity to a holdfast known as the byssus, a fibrous extracellular structure that ends dist

4 ater zebra and quagga mussels adhere via the byssus, a proteinaceous attachment apparatus.

5 empt to better understand the zebra mussel's byssus activity, a cDNA microarray (ZMB) including 716 g

6 rotein-1 (mefp1) is a major component of the byssus, an adhesive holdfast in mussels.

7 Zn, were present in calcite shell layer and byssus and are likely related to their biological activi

8 Based on two noncellular tissues, mussel byssus and polychaete jaws, recent studies suggest that

9 apfp-1 is an interfacial linker between the byssus and soft tissue, that is, the DOPA-containing dom

10 e relationship between their presence in the byssus and soft tissues.

11 was localized at the interface between stiff byssus and the soft tissue by immunochemical staining an

12 The adhesive plaques of Mytilus byssus are investigated increasingly to determine the mo

13 eas, gills, visceral mass, mantle, foot, and byssus, as well as in subcellular compartments.

14 indicated that element concentration in the byssus can be applied as non-lethal method to monitor th

15 findings demonstrated that the zebra mussel byssus cDNA microarray is an efficient tool for the stud

16 In the byssus Cr, Sb, Sn, and V have shown to be mostly related

17 nct DOPA-based cross-linking pathways during byssus fabrication, achieved by oxidative covalent cross

18 DOPA residues in proteins comprising mussel byssus fibers before, during, and after protein secretio

19 c analysis of the byssus secretory organ and byssus fibers revealed a family of ultrahigh molecular w

20 As a critical activity of the byssus glands embedded in the zebra mussel feet, byssoge

21 ion in organs always follows the same order: byssus >> hepatopancreas >> other organs.

22 Mussel byssus has a typical 'core-shell' architecture in which

23 The mussel byssus has long been a source of inspiration for the adh

24 oxyphenyl-L-alanine) (diDOPA) cross-links in byssus has raised questions about the relationship of th

25 The elastic extensibility of proximal byssus is extraordinary given its construction of collag

26 bers and foamlike adhesive plaques in mussel byssus is robust despite the strikingly dissimilar conne

27 undoubtedly contributes to the durability of byssus, it is not directly involved in adhesion.

28 The byssus of marine mussels has attracted attention as a pa

29 ks were present in trace amounts only in the byssus of other mussel species.

30 arkable ability to attach their holdfast, or byssus, opportunistically to a variety of substrata that

31 alanine (Dopa)-containing proteins of mussel byssus play a critical role in wet adhesion and have ins

32 Recent experiments on permeabilized anterior byssus retractor muscle (ABRM) of Mytilus edulis have sh

33 brate smooth muscles, including the anterior byssus retractor muscle (ABRM) of Mytilus edulis.

34 periments on thick filaments of the anterior byssus retractor muscle of Mytilus and the telson-levato

35 The anterior byssus retractor muscle of Mytilus edulis was used to ch

36 f isolated thick filaments from the anterior byssus retractor muscle of the blue mussel Mytilus eduli

37 ed the dynamics of isolated Mytilus anterior byssus retractor muscle thick filaments.

38 In permeabilized anterior byssus retractor muscles from Mytilus edulis, catch forc

39 ick and thin filaments from Mytilus anterior byssus retractor muscles.

40 ed by proteins during maturation of a mussel byssus secretion, we have developed a simple method to c

41 Proteomic analysis of the byssus secretory organ and byssus fibers revealed a fami

42 l forces far exceed the measured strength of byssus threads and their attachment to the environment.

43 t the heterogeneous material distribution in byssus threads has a critical role in decreasing the eff

44 However, how the network of byssus threads keeps the mussel attached in this challen

45 ood, concrete and iron by using a network of byssus threads.

46 model systems, including spider silk, mussel byssus, velvet worm slime, hagfish slime, and mistletoe

47 Labeling of byssus was achieved by allowing mussels to filter feed f

48 acellular tissues (calcite shell layer, and byssus) was performed.

49 protein family known as fp-1 provides mussel byssus with a protective outer coating and has drawn muc