Publications by authors named "Huihu Li"

Article Synopsis
  • Basic leucine zipper (bZIP) transcription factors (TFs) play a crucial role in regulating plant development and the synthesis of secondary metabolites like anthocyanins, which contribute to the red bark of the cultivar 'Gantong 1'.
  • A total of 89 genes encoding CcbZIP TFs were identified, categorized into 14 subfamilies, and CcbZIP38 and CcbZIP57 were found to be highly expressed in the bark and leaves during various growth stages.
  • Analysis suggests that these bZIP TFs may indirectly regulate anthocyanin synthesis, enhancing our understanding of the genetic factors that impact the ornamental traits of plants.
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Objective: To explore the feasibility of the postoperative diagnostic I whole-body planar scans (Dx-WBS) in papillary thyroid cancer (PTC) patients, and to clarify its value for accurate staging, risk stratification, and postoperative radioactive iodine (RAI) treatment management.

Design: Retrospective study from 2015 to 2021.

Setting: A total of 1294 PTC patients in the tertiary referral hospital.

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Many processes, such as growth, aging, and adaptation to abiotic stress, are regulated in plants by NAC transcription factors. In woody plants, NAC transcription factors acts as a primary switch that regulates secondary xylem development by activating various downstream transcription factors and modulating expression levels of genes involved in the synthesis of the secondary cell wall. Our team had previously sequenced the whole genome of the camphor tree (Cinnamomum camphora).

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is one of the most commonly used tree species in landscaping. Improving its ornamental traits, particularly bark and leaf colors, is one of the key breeding goals. The basic helix-loop-helix (bHLH) transcription factors (TFs) are crucial in controlling anthocyanin biosynthesis in many plants.

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Glues medicines is a special kind of traditional Chinese medicine.As the market demand is large, the raw materials are in short supply and lacks proper quality evaluation technology, which causes inconsistent quality of products on the market. Its authentic identification and evaluation stay a problem to be solved.

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This study is aimed to provide the source for clinical medication by clarifing the common base of Mongolia medicinal materials "Du Ge Mo Nong". In this paper literature research and plant taxonomy method were adopted combined with investigation of the markets and clinical use status to clarify the origin of common traditional Mongolian medicine "Du Ge Mo Nong". The results showed that the Mongolian medicine "Du Ge Mo Nong" and Tibetan medicine "Du Mu Niu" were the same crude drug and originated from the seeds of Holarrhena antidysenteriaca of family Apocynaceae in earliest time.

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