We previously discovered that nuclear import of low risk HPV11 E7 is mediated by its zinc-binding domain via a pathway that is independent of karyopherins/importins (Piccioli et al., 2010. Virology 407, 100–109). In this study we mapped and characterized a leucine-rich nuclear export signal (NES), 76IRQLQDLLL84, within the zinc-binding domain that mediates the nuclear export of HPV11 E7 in a CRM1-dependent manner. We also identified a mostly hydrophobic patch 65VRLVV69 within the zinc-binding domain that mediates nuclear import of HPV11 E7 via hydrophobic interactions with the FG-repeats domain of Nup62. Substitutions of hydrophobic residues to alanine within the 65VRLVV69 sequence disrupt the nuclear localization of 11E7, whereas the R66A mutation has no effect. Overall the data support a model of nuclear entry of HPV11 E7 protein via hydrophobic interactions with FG nucleoporins at the nuclear pore complex.
Sponges play an important role in biogenic coral-reef degradation, and it is acknowledged that elevated levels of sponge erosion commonly indicate poor health of coral-reef environments. An increase in the abundance of coral-excavating sponge has been reported from several locations, a development that may move coral-reef carbonate budgets increasingly towards net erosion. The role of coral-excavating sponges on Indian reefs has not been studied in as much detail as elsewhere. The present paper describes the observation of a coral-excavating sponge from the family Clionaidae. This brown, endolithic sponge formed a coherent thin layer over the surface of the substratum and had a spicule complement of tylostyles and spirasters. Therefore it belongs to the Cliona viridis species complex, which, as a group, is widely distributed and commonly displays high bioerosion rates. Accurate identification will require molecular studies and is presently deferred. The sponge was found excavating only Turbinaria mesenterina colonies of Gulf of Mannar. Within the surveyed area of 60m2, 38.58% of T. mesenterina colonies were found to be invaded by the sponge. Targeted long-term studies across a larger spatial scale are warranted to assess the role of this sponge in more detail, and whether its abundance changes over time.
Accounts of the encrusting, coral-killing sponges are increasing at an alarming rate. The present paper details about a thinly encrusting red sponge Clathria (Microciona) aceratoobtusa (Carter, 1887) which is invasive or locally spreading species and create deleterious outbreaks on Gulf of Mannar coral reefs. Earlier it has also been recorded from Yemen, but not taxonomically identified. This sponge is regarded as an aggressive space-competitor locally overgrowing and killing corals, mostly belonging to the coral genera such as Porites, Acropora, Montipora, Favia and Turbinaria. We observed that Turbinaria colonies were the substrate more preferred by the sponge than other coral colonies in the entire study site. The present observation analyses detail the taxonomical and ecological data of Clathria (M.) aceratoobtusa with a comprehensive review of its ecological preference.
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