ABSTRACT
Objective To detect the lymphocyte subpopulations in patients with early syphilis ,so as to know their immunity con‐dition and guide clinical treatment .Methods Flow cytometry was used to detect CD3+ ,CD4+ and CD8+ lymphocyte subpopula‐tions in peripheral blood from 59 volunteers ,including 20 normal individuals (Cont group) ,10 patients with primary syphilis (PS group) ,15 patients with secondary syphilis (SS group) and 14 patients with early latent syphilis (ELS group) .Results CD3+ , CD4+ and CD8+ lymphocyte subpopulations in each syphilis groups were higher than Cont group .SS group had the highest CD3+level ,second was PS group ,and third was ELS group .There was significant difference among three groups (P0 .05) .There was no significant difference of CD4+ /CD8+ among three groups(P>0 .05) .Conclusion Cytoimmunity in early syphilis enhances ,which could be benefit to eliminate Treponema Pallidum .
ABSTRACT
Purpose Polymorphisms of candidate gene Agouti was analyzed in order to reveal the molecular mech -anisms of coat color difference in chromosome engineering mice .Methods Firstly, differences of mouse coat color was detected by color measurement spectrophotometer .Then, candidate gene Agouti was found by whole genome scanning based on DNA chip.Finally, cDNA and amino acid sequence polymorphisms were analyzed , as well as the influence of protein properties and function after mutation was predicted by bioinformatics software .Results There are five SNPs in the Agou-ti cDNA sequences , resulting in three missense mutations in the amino acid sequence of Agouti signaling protein .Bioinfor-matics analysis revealed that one βsheet deletion in the secondary structure of the mutant protein , as well as tertiary struc-ture changed , leading to decrease of binding ability .Conclusion A novel missense mutation is found in candidate Agouti gene.It plays critical role in receptor binding activity , and may reflect on mice coat color changing from light gray to dark gray eventually .
ABSTRACT
A strain of Prototheca species isolated from a case of meningitis was identified by routine morphologic and biochemical methods as well as amplification of the related genes, in which the 28S large-subunit (LSU) region of ribosomal RNA (rRNA) gene and intergenic space (ITS) were amplified with universal fungal primers. The small-subunit (SSU) rRNA gene was amplified with eukaryote-specific primers and Prototheca genus-specific primers. Then, compared the sequences with the ones posted on BLAST (www. ncbi. nlm. nih. gov/BLAST). The organism choice giving the closest match, up to 99%, was considered the most likely correct identification. It was found that this strain of fungus grew well at 25 ℃ or 37 ℃. Smooth,moist colonies with white color were observed on Sabouraud Dextrose Agar (SDA) and Potato Dextrose Agar (PDA). Microscopically, globular or ovoid cells, a number of round, ovoid shaped endospores could be observed. No hypha, ascus or blastic conidia was found upon cultivation on SDA. Based on the morphological characteristics, this isolate could be identified as Prototheca species. The identity with Prototheca wickerhamii was 2.9 % as demonstrated by the API 20C AUX system. Sequence analysis showed that the ITS gene was proved to be a complex structural region which was not suitable for the identification of Prototheca species, but the LSU and SSU rDNA regions showed 94% and 99.9% sequence identities with Prototheca zopfii var. hydrocarbonea (P. zopfii var. hydrocarbonea) respectively, indicating that the SSU rRNA gene sequence might be more reliable on than the LSU rRNA gene sequence for identification of Prototheca species.