Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.14 (ATP synthase)
 7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three positive (PR1-3) and one negative (NR1) transcriptional control domain have been tentatively mapped in the promoter of the human F0F1-ATP synthase beta subunit gene (ATPsyn beta) in the context of expression in myogenic cells. Lipofection of promoter-chloramphenicol acetyltransferase fusion constructs into C2C12 myogenic cells revealed that two of the three positive domains (PR1 and PR2) function in both myoblasts and myotubes, whereas the third positive domain (PR3) and the sole negative domain (NR1) seem to function only in myotubes. PR1 contains a cluster of four CCAAT cis-elements, PR2 is a small 44-base pair region containing an SP1-like motif, and PR3 is a region previously shown to be recognized by both OXBOX- and REBOX-binding factors. By site-directed polymerase chain reaction linker mutations, the activity of the OXBOX/REBOX cis-element in myoblasts is shown to be masked by flanking sequences in PR3. The negative domain, NR1, is located between 300 and 1,000 base pairs upstream from the OXBOX/REBOX elements in a region containing multiple Alu repeats. Mobility gel shift analysis of DNA-protein complexes using competitor DNAs verified the involvement of both OXBOX- and REBOX-binding factors in PR3. Similar experiments show SP1-specific binding at PR2. These data with observations of OXBOX and REBOX-specific binding of an OXBOX/REBOX-like region within the conserved sequence block C of the human mitochondrial DNA D-loop sequence are consistent with the idea that OXBOX- and REBOX DNA-binding factors coordinate the expression of mitochondrial energy genes in highly oxidative tissues by working with well characterized general transcription factors such as SP1 and CCAAT DNA-binding proteins, which exist in the nucleus, and MTF, which exists in the mitochondrion.
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PMID:OXBOX and REBOX, overlapping promoter elements of the mitochondrial F0F1-ATP synthase beta subunit gene. OXBOX/REBOX in the ATPsyn beta promoter. 813 72

Powdery mildews are biotrophic pathogens causing fungal diseases in many economically important crops, including cereals, which are affected by Blumeria graminis. Powdery mildews only invade the epidermal cell layer of leaf tissues, in which they form haustorial structures. Haustoria are at the center of the biotrophic interaction by taking up nutrients from the host and by delivering effectors in the invaded cells to jeopardize plant immunity. Haustoria are composed of a fungal core delimited by a haustorial plasma membrane and cell wall. Surrounding these is the extrahaustorial complex, of which the extrahaustorial membrane is of plant origin. Although haustoria transcriptomes and proteomes have been investigated for Blumeria, the proteomes of barley epidermis upon infection and the barley components of the extrahaustorial complex remains unexplored. When comparing proteomes of infected and non-infected epidermis, several classical pathogenesis-related (PR) proteins were more abundant in infected epidermis. These included peroxidases, chitinases, cysteine-rich venom secreted proteins/PR1 and two thaumatin-like PR5 protein isoforms, of which TLP5 was previously shown to interact with the Blumeria effector BEC1054 (CSEP0064). Against expectations, transient TLP5 gene silencing suggested that TLP5 does not contribute to resistance but modulates susceptibility towards B. graminis. In a second proteomics comparison, haustorial structures were enriched from infected epidermal strips to identify plant proteins closely associated with the extrahaustorial complex. In these haustoria-enriched samples, relative abundances were higher for several V-type ATP synthase/ATPase subunits, suggesting the generation of proton gradients in the extrahaustorial space. Other haustoria-associated proteins included secreted or membrane proteins such as a PIP2 aquaporin, an early nodulin-like protein 9, an aspartate protease and other proteases, a lipase, and a lipid transfer protein, all of which are potential modulators of immunity, or the targets of pathogen effectors. Moreover, the ER BIP-like HSP70, may link ER stress responses and the idea of ER-like properties previously attributed to the extrahaustorial membrane. This initial investigation exploring the barley proteomes of Blumeria-infected tissues and haustoria, associated with a transient gene silencing approach, is invaluable to gain first insight of key players of resistance and susceptibility.
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PMID:Analysis of Barley Leaf Epidermis and Extrahaustorial Proteomes During Powdery Mildew Infection Reveals That the PR5 Thaumatin-Like Protein TLP5 Is Required for Susceptibility Towards Blumeria graminis f. sp. hordei. 3173 84