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2023. Plant transcription factors: An overview of their role in
plant life [ M ] / / CHOWDHARY AAꎬ MISHRA Sꎬ
MEHROTRA Sꎬ et al.ꎬ Plant Transcription Factors. London:
Academic Press: 3-20.
GE YMꎬ XUE Yꎬ ZHAO XFꎬ et al.ꎬ 2024. Antibacterial and
antioxidant activities of a novel biosynthesized selenium
nanoparticles using Rosa roxburghii extract and chitosan:
Preparationꎬ characterizationꎬ propertiesꎬ and mechanisms
[J]. International Journal of Biological Macromoleculesꎬ
254(Pt 3): 127971.
JIA Mꎬ NI YXꎬ ZHAO Hꎬ et al.ꎬ 2024. Full ̄length
c. 混合 SSR(601ꎬ4.58%)ꎻ c . 带有重合碱基的混合 SSR(5 transcriptome and RNA ̄Seq analyses reveal the resistance
194ꎬ39.56%)ꎻ p1. 单碱基 SSR(1 601ꎬ12.20%)ꎻ p2. 双碱基 mechanism of sesame in response to Corynespora cassiicola
SSR( 2 126ꎬ 16. 19%)ꎻ p3. 三 碱 基 SSR ( 3 415ꎬ 26.01% )ꎻ
[J]. BMC Plant Biologyꎬ 24: 64.
p4. 四碱基 SSR(66ꎬ0.50%)ꎻ p5. 五碱基 SSR(28ꎬ0.21%)ꎻ
KANG YJꎬ YANG DCꎬ KONG Lꎬ et al.ꎬ 2017. CPC2:A fast
p6. 六碱基 SSR(97ꎬ0.74%)ꎮ
and accurate coding potential calculator based on sequence
c. Compound SSR ( 601ꎬ 4. 58%)ꎻ c . Compound SSR with
overlapping bases (5 194ꎬ39. 56%)ꎻ p1. Mono ̄nucleotide SSR intrinsic features [ J]. Nucleic Acids Researchꎬ 45( W1):
(1 601ꎬ12. 20%)ꎻ p2. Di ̄nucleotide SSR ( 2 126ꎬ 16. 19%)ꎻ W12-W16.
p3. Tri ̄nucleotide SSR (3 415ꎬ26. 01%)ꎻ p4. Tetra ̄nucleotide LEPINIEC Lꎬ DEBEAUJON Iꎬ ROUTABOUL JMꎬ et al.ꎬ
SSR ( 66ꎬ 0. 50%)ꎻ p5. Penta ̄nucleotide SSR ( 28ꎬ 0. 21%)ꎻ
2006. Genetics and biochemistry of seed flavonoids [ J].
p6. Hexa ̄nucleotide SSR(97ꎬ 0.74%).
Annual Review of Plant Biologyꎬ 57: 405-430.
图 9 SSR 数量及类型 LI Bꎬ REN TYꎬ YANG MLꎬ et al.ꎬ 2024. Assessment of
Fig. 9 Numbers and types of SSRs quality differences between wild and cultivated fruits of Rosa
表 4 参与调节刺梨黄酮类化合物生物合成的潜在转录因子
Table 4 Potential transcription factors involved in the regulation of biosynthesis of flavonoids in Rosa roxburghii
转录因子家族 转录本编号
TF ̄family Transcript ID
MYB cili_transcript_20417ꎻ cili_transcript_22080ꎻ cili_transcript_28829ꎻ cili_transcript_29460ꎻ cili_transcript_29504ꎻ cili
_transcript_30064ꎻ cili_transcript_30172ꎻ cili_transcript_30323ꎻ cili_transcript_30337ꎻ cili_transcript_30688ꎻ cili_
transcript_24129ꎻ cili_transcript_27527
bHLH cili_transcript_22180ꎻ cili_transcript_20254
WRKY cili_transcript_10927ꎻ cili_transcript_11429ꎻ cili_transcript_13607ꎻ cili_transcript_14309ꎻ cili_transcript_14457ꎻ cili
_transcript_14822ꎻ cili_transcript_16781ꎻ cili_transcript_17020ꎻ cili_transcript_17348ꎻ cili_transcript_18134ꎻ cili_
transcript_18291ꎻ cili_transcript_18381ꎻ cili_transcript_18656ꎻ cili_transcript_19089ꎻ cili_transcript_19494ꎻ cili_
transcript_19718ꎻ cili_transcript_20761ꎻ cili_transcript_21239ꎻ cili_transcript_21244ꎻ cili_transcript_21474ꎻ cili_
transcript_21641ꎻ cili_transcript_21838ꎻ cili_transcript_21875ꎻ cili_transcript_22382ꎻ cili_transcript_22553ꎻ cili_
transcript_23091ꎻ cili_transcript_23358ꎻ cili_transcript_23720ꎻ cili_transcript_24064ꎻ cili_transcript_24192ꎻ cili_
transcript_24840ꎻ cili_transcript_25722ꎻ cili_transcript_26114ꎻ cili_transcript_26522ꎻ cili_transcript_27403ꎻ cili_
transcript_27882ꎻ cili_transcript_29086ꎻ cili_transcript_29648ꎻ cili_transcript_29900ꎻ cili_transcript_30307ꎻ cili_
transcript_31225
roxburghii Tratt [J]. LWT  ̄ Food Science and Technologyꎬ 报ꎬ 42(3): 350-358.]
202: 116300. LIU LYꎬ YANG Nꎬ DAI Yꎬ et al.ꎬ 2020. An efficient method
LU Mꎬ AN HMꎬ WANG DPꎬ 2017. Characterization of amino for isolating high ̄quality total RNA from different tissues of
acid composition in fruits of three Rosa roxburghii genotypes kiwifruit ( Actinidia chinensis ) [ J ]. Acta Agriculturae
[J]. Horticultural Plant Journalꎬ 3(6): 232-236. Jiangxiꎬ 32 ( 9): 30 - 34. [ 刘 林 娅ꎬ 杨 那ꎬ 代 玥ꎬ 等ꎬ
LIU FFꎬ MO LTꎬ OU GTꎬ et al.ꎬ 2024. Genetic diversity and 2020. 一种大量提取猕猴桃不同组织高质量总 RNA 的方
genetic structure analysis of wild Chinese Rosa roxburghii 法 [J]. 江西农业学报ꎬ 32(9): 30-34.]
Tratt. germplasm resources [J]. Plant Science Journalꎬ 42 LI WZꎬ GODZIK Aꎬ 2006. Cd ̄hit: A fast program for clustering
(3): 350-358. [刘粉粉ꎬ 莫亮团ꎬ 欧国腾ꎬ 等ꎬ 2024. 中国 and comparing large sets of protein or nucleotide sequences
野生刺梨的遗传多样性及遗传结构分析 [J]. 植物科学学 [J]. Bioinformaticsꎬ 22(13): 1658-1659.
