SH3Ps recruit auxilin-like vesicle uncoating factors into clathrin-mediated endocytosis

Clathrin-mediated endocytosis (CME) is an essential process of cellular cargo uptake operating in all eukaryotes. In animal and yeast, CME involves BAR-SH3 domain proteins, endophilins and amphiphysins, which function at the conclusion of CME to recruit factors for vesicle scission and uncoating. Arabidopsis thaliana contains BAR-SH3 domain proteins SH3P1-3, but their role is poorly understood. We identify SH3P1-3 as functional homologues of endophilin/amphiphysin. SH3P1-3 bind to discrete foci at the plasma membrane (PM), and colocalization indicates late recruitment of SH3P2 to a subset of clathrin-coated pits. PM recruitment pattern of SH3P2 is nearly identical to its interactor, a putative vesicle uncoating factor AUXILIN-LIKE1, and SH3P1-3 are required for most of AUXILIN-LIKE1 PM binding. This indicates a plant-specific modification of CME, where BAR-SH3 proteins recruit auxilin-like uncoating factors, rather than the uncoating phosphatases synaptojanins. Furthermore, we identify an unexpected redundancy between SH3P1-3 and a plant-specific endocytic adaptor, TPLATE complex, showing a contribution of SH3P1-3 to gross CME.

Internalization of a thiazole-modified peptide in Sinorhizobium meliloti occurs by BacA-dependent and -independent mechanisms

BacA proteins play key roles in the chronic intracellular infections of Sinorhizobium meliloti, Brucella abortus and Mycobacterium tuberculosis within their respective hosts. S. meliloti, B. abortus and M. tuberculosis BacA-deficient mutants have increased resistance to the thiazole-modified peptide bleomycin. BacA has been previously hypothesized, but not experimentally verified, to be involved in bleomycin uptake. In this paper, we show that a BacA-dependent mechanism is the major route of bleomycin internalization in S. meliloti. We also determined that the B. abortus and S. meliloti BacA proteins are functional homologues and that the B. abortus BacA protein is involved in the uptake of both bleomycin and proline-rich peptides. Our findings also provide evidence that there is a second, BacA-independent minor mechanism for bleomycin internalization in S. meliloti. We determined that the BacA-dependent and -independent mechanisms of bleomycin uptake are energy-dependent, consistent with both mechanisms of bleomycin uptake involving transport systems.

Analysis of function in the absence of extant functional homologues: a case study using mesotheriid notoungulates (Mammalia)

We use two approaches to test hypotheses regarding function in a group of extinct mammals (Family Mesotheriidae, Order Notoungulata) that lack any close extant relatives: a principle-derived paradigm method and empirically derived analog method. Metric and discrete morphological traits of mesotheriid postcranial elements are found to be consistent with the morphology predicted by a modified version of Hildebrand's paradigm for scratch diggers. Ratios of in-force to out-force lever arms based on skeletal elements indicate that the mesotheriids examined had limbs modified for high out-forces (i.e., they were “low geared”), consistent with the digging hypothesis. Other mesotheriid characters, such as cleft ungual phalanges, a curved olecranon, and a highly modified pelvis (with extra vertebrae incorporated into the sacrum and fusion between the ischium and the axial skeleton) are regarded as being functionally significant for digging and also occur in a variety of extant diggers. Analog methods indicate that mesotheriids share numerous traits common to a variety of extant diggers. Principal component analyses of postcranial elements indicate that mesotheriids consistently share morphometric space with larger extant fossorial mammals: aardvark, anteaters, wombats, and badger. Likewise, discriminant function analyses categorized mesotheriids as fossorial, though imperfectly analogous to the extant diggers analyzed. Thus, both theory-driven and empirically derived methods of estimating function in these extinct taxa support a digging hypothesis for the mesotheriids examined. Adaptations for digging in both the forelimb and sacropelvic functional complexes of mesotheriids provide independent support for the fossorial hypothesis.

Two Additional Components of the Accessory Sec System Mediating Export of the Streptococcus gordonii Platelet-Binding Protein GspB

ABSTRACT The gspB-secY2A2 locus of Streptococcus gordonii strain M99 encodes the platelet-binding glycoprotein GspB, along with proteins that mediate its glycosylation and export. We have identified two additional components of the accessory Sec system (Asp4 and Asp5) encoded just downstream of gtfB in the gspB-secY2A2 locus. These proteins are required for GspB export and for normal levels of platelet binding by M99. Asp4 and Asp5 may be functional homologues of SecE and SecG, respectively.