Gene presence and absence in the budding yeast cell cycle. Tekijä Jacob L. Steenwyk (5802475)

“…Ama, Activator of meiotic anaphase-promoting complex; APC (or APC/C), Anaphase-Promoting Complex; Bfa, Byr-four-alike; Bm1, Biomimetic moiety glutathionesulfonic acid; Bub, Budding uninhibited by benzimidazole; Cak1, Cyclin-dependent kinase-activating kinase; cAMP, cyclic AdenosineMonoPhosphate; Cdc, Cell division cycle; Cdh, CDC20 homolog; Cdr, <i>Candida</i> drug resistance; Chk, Checkpoint kinase; Cks, Cdc28 kinase subunit; Clb, Cyclin B; Cln, Cyclin; Cyc, Cytochrome C; Dam, Duo1 and Mps1 interacting; Dbf, Dumbbell former; Ddc, DNA Damage Checkpoint; Doc, Destruction of Cyclin B; Dun, DNA-damage UNinducible; Esp1, Extra spindle pole bodies 1; Far1, Factor ARrest; FEL, faster-evolving lineage; Fob, Fork Blocking less; Fus3, cell fusion 3; Gin4, Growth inhibitory 4; Grr, Glucose repression-resistant; Hsl, Histone synthetic lethal; Irr, Irregular cell behavior; Kcc, K⁺-Cl⁻ cotransporters; Lte, Low temperature essential; <i>MAD</i>, Mitotic Arrest-Deficient; MAPK, Mitogen-Activated Protein Kinase; Mbp, Mlul-box–binding protein; Mcd, Mitotic chromosome determinant; MCM, Mini-Chromosome Maintenance; <i>MEC3</i>, Mitosis Entry Checkpoint 3; Met30, Methionine requiring 30; Mih1, Mitotic inducer homolog; Mnd, Meiotic nuclear divisions; Mob, Mps one binder; Mps, Monopolar spindle; Mrc, Mediator of the Replication Checkpoint; Net, Nucleolar silencing establishing factor and telophase regulator; ORC, Origin Recognition Complex; Pds, Precocious Dissociation of Sisters; PHO, PHOsphate; Pom, Polarity misplaced; PP2A, Protein Phosphatase 2A; <i>RAD9</i>, RADiation sensitive; <i>RFX1</i>,; SCB, Swi4,6-dependent cell ycle box; Scc, Sister Chromatid Cohesion; SCF, S-phase kinase-associated protein, Cullin, F-box containing complex; SEL, slower-evolving lineage; Sic, Sucrose NonFermenting; Slk, Synthetic lethal karyogamy; Smc, Stability of minichromosomes; Spo, Sporulation; Swe, <i>Saccharomyces</i> Wee1; Swi, Switching deficient; Swm, Spore Wall Maturation; Tah11, Topo-A Hypersensitive; Tem, Termination of M phase; Tup, deoxythymidine monophosphate-uptake; <i>WHI5</i>, WHIskey 5; Ycg, Yeast cap G; Ycs, Yeast condensing subunit; Yhp1, Yeast Homeo-Protein 1; Yox1, Yeast homeobox 1.…”

Absolute quantification analysis of the genes involved in wax biosynthesis during different developmental stages. Tekijä Pu Yang (103239)

Proteomic Analysis of Insect Molting Fluid with a Focus on Enzymes Involved in Chitin Degradation Tekijä Mingbo Qu (444213)

“…Cuticular chitin degradation is extremely important for insect growth and development, which has not been fully understood thus far. One obstacle to understanding this mechanism is the lack of a systematic analysis of the chitinolytic enzymes involved in cuticular chitin degradation. …”

The Pituitary Gland of the European Eel Reveals Massive Expression of Genes Involved in the Melanocortin System Tekijä Eirill Ager-Wick (469238)

“…Several genes putatively involved in downstream processing of pro-opiomelanocortin were manually annotated, and were found to be highly expressed, both by RNA-seq and by qPCR. …”

Proteomic Analysis of Insect Molting Fluid with a Focus on Enzymes Involved in Chitin Degradation Tekijä Mingbo Qu (444213)

“…Cuticular chitin degradation is extremely important for insect growth and development, which has not been fully understood thus far. One obstacle to understanding this mechanism is the lack of a systematic analysis of the chitinolytic enzymes involved in cuticular chitin degradation. …”

Proteomic Analysis of Insect Molting Fluid with a Focus on Enzymes Involved in Chitin Degradation Tekijä Mingbo Qu (444213)

“…Cuticular chitin degradation is extremely important for insect growth and development, which has not been fully understood thus far. One obstacle to understanding this mechanism is the lack of a systematic analysis of the chitinolytic enzymes involved in cuticular chitin degradation. …”

Model for host-RSV interacting pathways involving profilin (see Results and Discussion for details) Tekijä Vira Bitko (422)

Proteomic Analysis of Insect Molting Fluid with a Focus on Enzymes Involved in Chitin Degradation Tekijä Mingbo Qu (444213)

“…Cuticular chitin degradation is extremely important for insect growth and development, which has not been fully understood thus far. One obstacle to understanding this mechanism is the lack of a systematic analysis of the chitinolytic enzymes involved in cuticular chitin degradation. …”

Accounting for population structure reveals ambiguity in the <i>Zaire Ebolavirus</i> reservoir dynamics Tekijä Bram Vrancken (546937)

“…In addition, the recent appearance of slower-evolving variants is in line with latency as a survival mechanism and with bats as the natural reservoir host.…”

Transcriptome Analysis of Genes Involved in Lipid Biosynthesis in the Developing Embryo of Pecan (Carya illinoinensis) Tekijä Ruimin Huang (1341213)

“…Pecan (Carya illinoinensis) is an important woody tree species because of the high content of healthy oil in its nut. Thus far, the pathways and key genes related to oil biosynthesis in developing pecan seeds remain largely unclear. …”

Bacteria and Genes Involved in Arsenic Speciation in Sediment Impacted by Long-Term Gold Mining Tekijä Patrícia S. Costa (585027)

“…<div><p>The bacterial community and genes involved in geobiocycling of arsenic (As) from sediment impacted by long-term gold mining were characterized through culture-based analysis of As-transforming bacteria and metagenomic studies of the <i>arsC</i>, <i>arrA</i>, and <i>aioA</i> genes. …”

ROS Involves the Fungicidal Actions of Thymol against Spores of <i>Aspergillus flavus</i> via the Induction of Nitric Oxide Tekijä Qingshan Shen (2795404)

“…Taken together, it could be concluded that ROS is involved in spore death induced by thymol via the induction of NO.…”

Surgical Management of Massive Pulmonary Embolism Presenting with Cardiopulmonary Arrest: How Far Is Too Far? Tekijä Kaushalendra Rathore (14005819)

Surgical Management of Massive Pulmonary Embolism Presenting with Cardiopulmonary Arrest: How Far Is Too Far? Tekijä Kaushalendra Rathore (14005819)

<i>Gigiku Sihat</i> logo. Tekijä Noor Akmal Muhamat (11408582)

Aiheet:

Prevalence of extant invaders in the invaded communities across all simulations. Tekijä Giovanni Strona (117060)

Aiheet:

Distribution of the number of substitutions along the lineage of the final most abundant parasite to the ancestor in the set of control simulations (<i>n</i> = 654). Tekijä Giovanni Strona (117060)

Aiheet:

Persistence of time-travelling invaders in recipient communities. Tekijä Giovanni Strona (117060)

Aiheet:

Microsoft words computer printed wireframe. Tekijä Noor Akmal Muhamat (11408582)

Aiheet:

Notification drawer. Tekijä Noor Akmal Muhamat (11408582)

Aiheet: