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產(chǎn)品目錄
  • 細(xì)胞培養(yǎng)進(jìn)口血清
    進(jìn)口胎牛血清
    進(jìn)口新生牛血清
    進(jìn)口豬血清
    馬血清
  • 支原體檢測(cè)盒及標(biāo)準(zhǔn)品
    常規(guī)PCR檢測(cè)試劑盒
    熒光定量PCR檢測(cè)(qPCR法)
    支原體DNA提取
    靈敏度標(biāo)準(zhǔn)品(方法驗(yàn)證用)
    特異性標(biāo)準(zhǔn)品(方法驗(yàn)證用)
    PCR定量標(biāo)準(zhǔn)品(可用于方法驗(yàn)證)
  • 支原體祛除試劑
    細(xì)胞中支原體祛除
    環(huán)境支原體祛除
    水槽支原體祛除
  • 干細(xì)胞培養(yǎng)基
  • DNA/RNA污染祛除
    DNA/RNA污染祛除試劑
    DNA污染監(jiān)測(cè)
  • RNA病毒研究試劑
    RNA病毒檢測(cè)試劑盒
    病毒RNA提取
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    DNA污染監(jiān)測(cè)祛除
    PCR/qPCR儀性能檢查
    PCR試劑
    PCR試劑盒
    PCR預(yù)混液(凍干粉)
    熱啟動(dòng)聚合酶MB Taq DNA
  • 微生物PCR檢測(cè)
    食品檢測(cè)類產(chǎn)品
    食品微生物檢測(cè)
    細(xì)菌PCR檢測(cè)

【第二季】利用微生物培養(yǎng)基的景觀來(lái)預(yù)測(cè)新的有機(jī)體媒體配對(duì)

2016-10-24 13:37

In addition to exact media matches as just described, we tested whether these associations would also hold for partial matches between lab media. We considered two organisms to have a partial medium match if a comparison of the best matching media of the two organisms (or of the sets formed from the unions of components from all of their listed media) exceeded a specified similarity threshold (see Methods for details). Indeed, over a range of thresholds and with all combinations of these metrics, the correlations between media similarity and ecological or phylogenetic relatedness are maintained (see Supplementary Fig. 13). These associations not only indicate that ecological or phylogenetic data may be helpful in guiding culturing of organisms on known lab media, but, importantly, that these data may be usable for determining likely subsets of media to include for a given organism when developing novel media formulations.

Predicting new organism–media pairings via transitivity

A fundamental property in logic and math is the potential transitivity of a given relation R; that is, if R is transitive, then (ARB and BRC) implies that (ARC). To better understand the known patterns of microbial growth in KOMODO, we asked whether the property ‘organism sharing of media’ is transitive. To test this, we searched the KOMODO data for growth media patterns involving three organisms A, B and C, in which it is given that A and B grow together on a certain medium (m1), B and C grow together on another medium (m2) and C grows on a third medium (m3; see Fig. 4a). Given this pattern and assuming transitivity, we predicted that organism A would be more likely than a randomly chosen organism to grow on m3 (see Methods for details). Out of 1,000 such tests, we identified 694 positive (that is, documented growth) instances of transitivity versus only 1 positive case among the 1,000 randomly selected organisms. This result strongly indicates that media preferences are indeed transitive (binomial P<1e?186).

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