472 research outputs found
ANALISA EKSPERIMENTAL GAYA POTONG, TERMAL DAN GETARAN PADA AKTUATOR TELESKOP GALAH PMANEN KELAPA SAWIT
Salah satu faktor yang paling banyak mempengaruhi pertumbuhan dan produktivitas kelapa sawit adalah faktor panen. Besarnya frekuensi panen dibutuhkan suatu inovasi alat pemanen untuk memenuhi kebutuhan panen agar dapat meningkatkan efektivitas dalam proses panen kelapa sawit. Oleh karena itu penulis akan menganalisa Linear Aktuator teleskop galah pemanen kelapa sawit yang telah dirancang oleh tim harvesting palm tool. Jenis aktuator ini dirancang dengan menggunakan baterai sebagai sumber tegangan listrik yang disalurkan pada koil dan berubah menjadi energi mekanik yang menggerakkan poros secara linear yang berguna untuk menggerakkan pisau potong. Adapun tujuan dari penelitian ini adalah untuk mengetahui kecepatan potong dari Linear Aktuator, mengukur fluktuasi temperatur pada poros dan casing serta mengetahui pola getaran tanpa beban dari aktuator. Dari hasil penelitian yang dilakukan, energi yang dihasilkan aktuator adalah 7126 Nm dimana aktuator ini masih belum mampu melakukan proses pemotongan. Saat dilakukan pengukuran temperatur, fluktuasi tertinggi temperatur pada poros ada pada lokasi uji 2 dengan suhu 65,67Β°C dan fluktuasi tertinggi pada casing 64,55Β°C dimana lokasi uji 2 ini merupakan lokasi yang bersentuhan langsung dengan koi
Sulfide quinone reductase (SQR) activity in Chlorobium
AbstractMembranes of the green sulfur bacterium, Chlorobium limicola f, thiosulfatophilum, catalyze the reduction of externally added isoprenoid quinones by sulfide. This activity is highly sensitive to stigmatellin and aurachins. It is also inhibited by 2-n-nonyl-4-hydroxyquinoline-N-oxide, antimycin, myxothiazol and cyanide. It is concluded that in sulfide oxidizing bacteria like Chlorobium, sulfide oxidation involves a sulfide-quinone reductase (SQR) similar to the one found in Oscilatoria limnetica [Arieli, B., Padan, E. and Shahak, Y. (1991) J. Biol. Chem. 266. 104β111]
A two-domain elevator mechanism for sodium/proton antiport
Sodium/proton (Na+/H+) antiporters, located at the plasma membrane in every cell, are vital for cell homeostasis1. In humans, their dysfunction has been linked to diseases, such as hypertension, heart failure and epilepsy, and they are well-established drug targets2. The best understood model system for Na+/H+ antiport is NhaA from Escherichia coli1, 3, for which both electron microscopy and crystal structures are available4, 5, 6. NhaA is made up of two distinct domains: a core domain and a dimerization domain. In the NhaA crystal structure a cavity is located between the two domains, providing access to the ion-binding site from the inward-facing surface of the protein1, 4. Like many Na+/H+ antiporters, the activity of NhaA is regulated by pH, only becoming active above pHβ6.5, at which point a conformational change is thought to occur7. The only reported NhaA crystal structure so far is of the low pH inactivated form4. Here we describe the active-state structure of a Na+/H+ antiporter, NapA from Thermus thermophilus, at 3βΓ
resolution, solved from crystals grown at pHβ7.8. In the NapA structure, the core and dimerization domains are in different positions to those seen in NhaA, and a negatively charged cavity has now opened to the outside. The extracellular cavity allows access to a strictly conserved aspartate residue thought to coordinate ion binding1, 8, 9 directly, a role supported here by molecular dynamics simulations. To alternate access to this ion-binding site, however, requires a surprisingly large rotation of the core domain, some 20Β° against the dimerization interface. We conclude that despite their fast transport rates of up to 1,500βionsβper second3, Na+/H+ antiporters operate by a two-domain rocking bundle model, revealing themes relevant to secondary-active transporters in general
Postnatal Expansion of the Pancreatic Ξ²-Cell Mass Is Dependent on Survivin
OBJECTIVEβDiabetes results from a deficiency of functional Ξ²-cells due to both an increase in Ξ²-cell death and an inhibition of Ξ²-cell replication. The molecular mechanisms responsible for these effects in susceptible individuals are mostly unknown. The objective of this study was to determine whether a gene critical for cell division and cell survival in cancer cells, survivin, might also be important for Ξ²-cells
Definition of the ΟW regulon of Bacillus subtilis in the absence of stress
Bacteria employ extracytoplasmic function (ECF) sigma factors for their responses to environmental stresses. Despite intensive research, the molecular dissection of ECF sigma factor regulons has remained a major challenge due to overlaps in the ECF sigma factor-regulated genes and the stimuli that activate the different ECF sigma factors. Here we have employed tiling arrays to single out the ECF ΟW regulon of the Gram-positive bacterium Bacillus subtilis from the overlapping ECF ΟX, ΟY, and ΟM regulons. For this purpose, we profiled the transcriptome of a B. subtilis sigW mutant under non-stress conditions to select candidate genes that are strictly ΟW-regulated. Under these conditions, ΟW exhibits a basal level of activity. Subsequently, we verified the ΟW-dependency of candidate genes by comparing their transcript profiles to transcriptome data obtained with the parental B. subtilis strain 168 grown under 104 different conditions, including relevant stress conditions, such as salt shock. In addition, we investigated the transcriptomes of rasP or prsW mutant strains that lack the proteases involved in the degradation of the ΟW anti-sigma factor RsiW and subsequent activation of the ΟW-regulon. Taken together, our studies identify 89 genes as being strictly ΟW-regulated, including several genes for non-coding RNAs. The effects of rasP or prsW mutations on the expression of ΟW-dependent genes were relatively mild, which implies that ΟW-dependent transcription under non-stress conditions is not strictly related to RasP and PrsW. Lastly, we show that the pleiotropic phenotype of rasP mutant cells, which have defects in competence development, protein secretion and membrane protein production, is not mirrored in the transcript profile of these cells. This implies that RasP is not only important for transcriptional regulation via ΟW, but that this membrane protease also exerts other important post-transcriptional regulatory functions
Promiscuous Binding in a Selective Protein: The Bacterial Na+/H+ Antiporter
The ability to discriminate between highly similar substrates is one of the remarkable properties of enzymes. For example, transporters and channels that selectively distinguish between various solutes enable living organisms to maintain and control their internal environment in the face of a constantly changing surrounding. Herein, we examine in detail the selectivity properties of one of the most important salt transporters: the bacterial Na/H antiporter. Selectivity can be achieved at either the substrate binding step or in subsequent antiporting. Surprisingly, using both computational and experimental analyses synergistically, we show that binding per se is not a sufficient determinant of selectively. All alkali ions from Li to Cs were able to competitively bind the antiporter's binding site, whether the protein was capable of pumping them or not. Hence, we propose that NhaA's binding site is relatively promiscuous and that the selectivity is determined at a later stage of the transport cycle
Viroplasm and large virus-like particles in the dinoflagellate Gymnodinium uberrimum
Virus-like particles (VLPs) measuring 385Β±5 nm in diameter are described in the freshwater dinoflagellate Gymnodinium uberrimum . The VLPs are found in association with, and βbuddingβ from a vesicular viroplasmic area. A similar viroplasm was also found in a chrysophycean alga, Mallomonas sp. collected from the same general area in Saginaw Bay of Lake Huron. The nature of these VLPs and their virogenic stroma, in these algae from the Laurentian Great Lakes are discussed in the present report.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/41733/1/709_2005_Article_BF01275735.pd
Lhx2 Is Required for Patterning and Expansion of a Distinct Progenitor Cell Population Committed to Eye Development
Progenitor cells committed to eye development become specified in the prospective forebrain and develop subsequently into the optic vesicle and the optic cup. The optic vesicle induces formation of the lens placode in surface ectoderm from which the lens develops. Numerous transcription factors are involved in this process, including the eye-field transcription factors. However, many of these transcription factors also regulate the patterning of the anterior neural plate and their specific role in eye development is difficult to discern since eye-committed progenitor cells are poorly defined. By using a specific part of the Lhx2 promoter to regulate Cre recombinase expression in transgenic mice we have been able to define a distinct progenitor cell population in the forebrain solely committed to eye development. Conditional inactivation of Lhx2 in these progenitor cells causes an arrest in eye development at the stage when the optic vesicle induces lens placode formation in the surface ectoderm. The eye-committed progenitor cell population is present in the Lhx2β/β embryonic forebrain suggesting that commitment to eye development is Lhx2-independent. However, re-expression of Lhx2 in Lhx2β/β progenitor cells only promotes development of retinal pigment epithelium cells, indicating that Lhx2 promotes the acquisition of the oligopotent fate of these progenitor cells. This approach also allowed us to identify genes that distinguish Lhx2 function in eye development from that in the forebrain. Thus, we have defined a distinct progenitor cell population in the forebrain committed to eye development and identified genes linked to Lhx2's function in the expansion and patterning of these progenitor cells
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