The volarility of limonene in liquid was studied by a head space method of gaschromatography. The volatility was studied with the five groups classified solvent as alcohols, esters, acids and ...hydrocarbons. Though the volatility of limonene in each solvent suggested the same tendency, the volatility in alcohols and acids was higher than the other groups tested. The volatility of limonene in alcohols, esters, acids and carbonyls depended on the number of carbon chain and the volatility was suppressed when the number was above eight. The volatility of limonene in water was suppressed with the compound which has carbon chains above eight and hydroxy group in the structure as myristyl alcohol.
Acquired mutations of JAK2 and TET2 are frequent in myeloproliferative neoplasms (MPNs). We examined the individual and cooperative effects of these mutations on MPN development. Recipients of ...JAK2V617F cells developed primary myelofibrosis–like features; the addition of loss of TET2 worsened this JAK2V617F-induced disease, causing prolonged leukocytosis, splenomegaly, extramedullary hematopoiesis, and modestly shorter survival. Double-mutant (JAK2V617F plus loss of TET2) myeloid cells were more likely to be in a proliferative state than JAK2V617F single-mutant myeloid cells. In a serial competitive transplantation assay, JAK2V617F cells resulted in decreased chimerism in the second recipients, which did not develop MPNs. In marked contrast, cooperation between JAK2V617F and loss of TET2 developed and maintained MPNs in the second recipients by compensating for impaired hematopoietic stem cell (HSC) functioning. In-vitro sequential colony formation assays also supported the observation that JAK2V617F did not maintain HSC functioning over the long-term, but concurrent loss of TET2 mutation restored it. Transcriptional profiling revealed that loss of TET2 affected the expression of many HSC signature genes. We conclude that loss of TET2 has two different roles in MPNs: disease accelerator and disease initiator and sustainer in combination with JAK2V617F.
•Loss of TET2 accelerates the degree of malignancy of MPNs in combination with JAK2V617F.•Loss of TET2 sustains MPNs in combination with JAK2V617F.