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擴(kuò)增效率

以梯度稀釋的質(zhì)粒DNA (10 ng～ 0.1 pg，10倍稀釋)為模板進(jìn)行擴(kuò)增得到的擴(kuò)增曲線和標(biāo)準(zhǔn)曲線。結(jié)果顯示，TransGen產(chǎn)品擴(kuò)增效率較高，可得到漂亮的擴(kuò)增曲線和標(biāo)準(zhǔn)曲線。

封閉效果

以不同濃度人gDNA為模板擴(kuò)增，瓊脂糖凝膠電泳檢測(cè)PerfectStart^? Taq熱啟動(dòng)酶封閉效果。結(jié)果顯示，封閉后可顯著提高擴(kuò)增靈敏度和特異性。

以小麥cDNA為模板，qPCR檢測(cè)PerfectStart^? Taq熱啟動(dòng)酶封閉效果。結(jié)果顯示，封閉后可顯著提高擴(kuò)增特異性。

產(chǎn)品穩(wěn)定性

不同溫度保存及反復(fù)凍融處理后TransGen產(chǎn)品仍可穩(wěn)定擴(kuò)增

無(wú)NTC擴(kuò)增基因數(shù)量統(tǒng)計(jì)

使用TransGen與Company T的產(chǎn)品，擴(kuò)增58個(gè)基因(9個(gè)人的基因，7個(gè)小鼠的基因，17個(gè)水稻的基因，8個(gè)煙草的基因，4個(gè)擬南芥的基因，10個(gè)小麥的基因，3個(gè)玉米的基因)。無(wú)NTC擴(kuò)增基因數(shù)統(tǒng)計(jì)。結(jié)果顯示，TransGen產(chǎn)品無(wú)NTC擴(kuò)增基因數(shù)高于Company T，擴(kuò)增效果更佳。

擴(kuò)增靈敏度

以500 ng的人源RNA反轉(zhuǎn)錄(TransGen, AT311)后得到的cDNA為模板梯度稀釋，分別使用TransGen與Company T產(chǎn)品擴(kuò)增β-actin (NTC無(wú)擴(kuò)增)。結(jié)果顯示，TransGen產(chǎn)品擴(kuò)增靈敏度與Company T產(chǎn)品基本一致。

不同物種模板擴(kuò)增

以不同物種的RNA反轉(zhuǎn)錄(TransGen, AT311)后得到的cDNA為模板分別使用TransGen與Company T的產(chǎn)品進(jìn)行擴(kuò)增(NTC無(wú)擴(kuò)增)。結(jié)果顯示，TransGen產(chǎn)品擴(kuò)增效果與Company T產(chǎn)品基本一致。

 產(chǎn)品介紹視頻

1.Zhang B, He P, Lawrence J E G, et al. A human embryonic limb cell atlas resolved in space and time[J]. Nature, 2023.(IF 64.80)

2.Zhang J Y, Wang B, Xu H R, et al. Root microbiota regulates tiller number in rice[J]. Cell, 2025.(IF 45.50)

3.Zhao K, Xue H, Li G, et al. Pangenome analysis reveals structural variation associated with seed size and weight traits in peanut[J]. Nature Genetics, 2025. (IF 31.80)

4.Xiang B, Zhang M, Li K, et al. The epitranscriptional factor PCIF1 orchestrates CD8+ T cell ferroptosis and activation to control antitumor immunity[J]. Nature Immunology, 2025.(IF 27.80)

5.Huang L, Wei M, Li H, et al. GP73-dependent regulation of exosome biogenesis promotes colorectal cancer liver metastasis[J]. Molecular Cancer, 2025.(IF 27.70)

6.Deng P, Wang Z, Chen J, et al. RAD21 amplification epigenetically suppresses interferon signaling to promote immune evasion in ovarian cancer[J]. The Journal of Clinical Investigation, 2022.(IF 19.46)

7.Huang J, Wu C, Kloeber J A, et al. SLFN5-mediated chromatin dynamics sculpt higher-order DNA repair topology[J]. Molecular Cell, 2023.(IF 19.33)

8.Liang Y, Wang J, Xu C, et al. Remodeling Collagen Microenvironment in Liver Using a Biomimetic Nano‐Regulator for Reversal of Liver Fibrosis[J]. Advanced Science, 2023.(IF 17.52)

9.Liang Y, Zhang J, Xu C, et al. Biomimetic Mineralized CRISPR/Cas RNA Nanoparticles for Efficient Tumor-Specific Multiplex Gene Editing[J]. ACS nano, 2023.(IF 17.10)

10.He F, Liu Z, Xu J, et al. Black phosphorus nanosheets suppress oxidative damage of stem cells for improved neurological recovery[J]. Chemical Engineering Journal, 2023.(IF 16.74)

11.He F, Cheng K, Qi J, et al. Black phosphorus nanosheets enhance differentiation of neural progenitor cells for improved treatment in spinal cord injury[J]. Chemical Engineering Journal, 2023.(IF 15.10)

12.Chen B, Jin K, Dong J, et al. Hypocretin‐1/Hypocretin Receptor 1 Regulates Neuroplasticity and Cognitive Function through Hippocampal Lactate Homeostasis in Depressed Model[J]. Advanced Science, 2024.(IF 14.30)

13.Huang C, Jiang T, Pan W, et al. Ubiquitination of NS1 confers differential adaptation of zika virus in mammalian hosts and mosquito vectors[J]. Advanced Science, 2024.(IF 14.30)

14.Liang Y, Zhang J, Wang J, et al. Restoring Tumor Cell Immunogenicity Through Ion‐Assisted p53 mRNA Domestication for Enhanced In Situ Cancer Vaccination Effect[J]. Advanced Science, 2025(IF 14.30)

15.Cui B, Guo X, Zhou W, et al. Exercise alleviates neovascular age-related macular degeneration by inhibiting AIM2 inflammasome in myeloid cells[J]. Metabolism, 2023.(IF 13.93)

16.Sun D, Zhang X, Yin Z, et al. As-hyperaccumulator Pteris vittata and non-hyperaccumulator Pteris ensiformis under low As-exposure: Transcriptome analysis and implication for As hyperaccumulation[J]. Journal of Hazardous Materials, 2023.(IF 13.60)

17.Xiong Y, He C, Lin X, et al. Black phosphorus nanosheets inhibit glioblastoma cell migration and invasion through modulation of WNT/β-catenin and NOTCH signaling pathways[J]. Chemical Engineering Journal, 2024.(IF 13.40)

18.Zuo F, Jiang L, Su N, et al. Imaging the dynamics of messenger RNA with a bright and stable green fluorescent RNA[J]. Nature Chemical Biology, 2024.(IF 13.00)

19.Zhang J, Yuan J, Lin J, et al. Molecular basis of locus-specific H3K9 methylation catalyzed by SUVH6 in plants[J]. Proceedings of the National Academy of Sciences, 2023.(IF 12.78)

20.Xu J, Zhao J, Wang R, et al. Shh and Olig2 sequentially regulate oligodendrocyte differentiation from hiPSCs for the treatment of ischemic stroke[J]. Theranostics, 2022.(IF 11.56)

21.Cheng H, Liu S, Zhang Y, et al. Comparative single-cell transcriptomic map reveals divergence in leaves between two cotton species at cell type resolution[J]. Journal of Advanced Research, 2025(IF 11.40)

22.Wang X, Ling R, Peng Y, et al. RNPS1 stabilizes NAT10 protein to facilitate translation in cancer via tRNA ac4C modification[J]. International Journal of Oral Science, 2024.(IF 10.80)

23.Yang D, Wang W, Zhao L, et al. Resuscitation of viable but nonculturable bacteria promoted by ATP-mediated NAD+ synthesis[J]. Journal of Advanced Research, 2024.(IF 10.70)

24.He F, Du D, Chen Z, et al. A natural variation in the promoter of TaGDSL‐7D contributes to grain weight and yield in wheat[J]. Plant Biotechnology Journal, 2025.(IF 10.50)

25.Su D, Li M, Xie Y, et al. Gut commensal bacteria Parabacteroides goldsteinii-derived outer membrane vesicles suppress skin inflammation in psoriasis[J]. Journal of Controlled Release, 2025.(IF 10.50)

26.You L Y, Lin J, Xu H W, et al. Intragenic heterochromatin‐mediated alternative polyadenylation modulates miRNA and pollen development in rice[J]. New Phytologist, 2021.(IF 10.15)

qPCR常見(jiàn)問(wèn)題解答