Your search keyword '"Lin, Yuling"' showing total 13 results

1. Colonisation of Oncidium orchid roots by the endophyte Piriformospora indica restricts Erwinia chrysanthemi infection, stimulates accumulation of NBS-LRR resistance gene transcripts and represses their targeting micro-RNAs in leaves

Author

Ye, Wei, Jiang, Jinlan, Lin, Yuling, Yeh, Kai-Wun, Lai, Zhongxiong, Xu, Xuming, and Oelmüller, Ralf

Published

2019

2. Identification of drought-responsive miRNAs and physiological characterization of tea plant (Camellia sinensis L.) under drought stress

Author

Shanshan Zhao, Lai Zhongxiong, Lin Yuling, Zhong Wang, Xiaojun Chang, Yuqiong Guo, Chen Zhu, and Chuan Yue

Subjects

Chlorophyll, 0106 biological sciences, 0301 basic medicine, Drought stress, Sulfur metabolism, Plant Science, Biology, Genes, Plant, Real-Time Polymerase Chain Reaction, 01 natural sciences, Camellia sinensis, 03 medical and health sciences, chemistry.chemical_compound, Physiological characteristics, Gene Expression Regulation, Plant, Transcription (biology), lcsh:Botany, Botany, microRNA, KEGG, Gene, miRNA, Dehydration, fungi, food and beverages, Sequence Analysis, DNA, Malondialdehyde, lcsh:QK1-989, MicroRNAs, Gene Ontology, 030104 developmental biology, Real-time polymerase chain reaction, chemistry, Research Article, 010606 plant biology & botany

Abstract

Background Drought stress is one of the major natural challenges in the main tea-producing regions of China. The tea plant (Camellia sinensis) is a traditional beverage plant whose growth status directly affects tea quality. Recent studies have revealed that microRNAs (miRNAs) play key functions in plant growth and development. Although some miRNAs have been identified in C. sinensis, little is known about their roles in the drought stress response of tea plants. Results Physiological characterization of Camellia sinensis ‘Tieguanyin’ under drought stress showed that the malondialdehyde concentration and electrical conductivity of leaves of drought-stressed plants increased when the chlorophyll concentration decreased under severe drought stress. We sequenced four small-RNA (sRNA) libraries constructed from leaves of plants subjected to four different treatments, normal water supply (CK); mild drought stress (T1); moderate drought stress (T2) and severe drought stress (T3). A total of 299 known mature miRNA sequences and 46 novel miRNAs were identified. Gene Ontology enrichment analysis revealed that most of the differentially expressed-miRNA target genes were related to regulation of transcription. Kyoto Encyclopedia of Genes and Genomes analysis revealed that the most highly enriched pathways under drought stress were D-alanine metabolism, sulfur metabolism, and mineral absorption pathways. Real-time quantitative PCR (qPCR) was used to validate the expression patterns of 21 miRNAs (2 up-regulated and 19 down-regulated under drought stress). The observed co-regulation of the miR166 family and their targets ATHB-14-like and ATHB-15-like indicate the presence of negative feedback regulation in miRNA pathways. Conclusions Analyses of drought-responsive miRNAs in tea plants showed that most of differentially expressed-miRNA target genes were related to regulation of transcription. The results of study revealed that the expressions of phase-specific miRNAs vary with morphological, physiological, and biochemical changes. These findings will be useful for research on drought resistance and provide insights into the mechanisms of drought adaptation and resistance in C. sinensis. Electronic supplementary material The online version of this article (10.1186/s12870-017-1172-6) contains supplementary material, which is available to authorized users.

Published

2017

3. Identification of microRNAs involved in betalain metabolism in the green and red sectors of amaranth leaves based on Illumina sequencing data.

Author

Liu, Shengcai, Peng, Liyun, Pan, Junfei, Wang, Xiao, Zhao, Chunli, Cheng, Chunzhen, Zhang, Zihao, Lin, Yuling, XuHan, Xu, and Lai, Zhongxiong

Subjects

MICRORNA, LEAF anatomy, NON-coding RNA, AMARANTHS, AMARANTHUS palmeri, MOLECULAR structure, POLYMERASE chain reaction

Abstract

Amaranth plants are rich in betalains. Additionally, the molecular structure and metabolic pathway of betalains are different in amaranth than in beet. To date, only a few studies have examined the regulatory roles of microRNAs (miRNAs) in betalain biosynthesis in plants. Thus, we constructed small RNA libraries for the red and green sectors of amaranth leaves to identify miRNAs associated with betalain biosynthesis. We identified 239 miRNAs including 198 known and 41 novel miRNAs. 493 target genes for the 239 miRNAs were detected in an amaranth transcriptome database. The validation of the expression of 20 miRNAs and nine target genes in a quantitative real-time polymerase chain reaction assay revealed the miRNAs and target genes that were differentially expressed in the two leaf sectors. The miRNAs involved in betalain metabolism in amaranth plants were identified by Illumina sequencing platform. The data presented herein may provide insights into the regulation molecular mechanisms for betalain biosynthesis in amaranth and other plant species. [ABSTRACT FROM AUTHOR]

Published

2020

4. Genome-wide identification of miRNAs and their targets during early somatic embryogenesis in Dimocarpus longan Lour.

Author

Xu, Xiaoping, Chen, Xiaohui, Chen, Yan, Zhang, Qinglin, Su, Liyao, Chen, Xu, Chen, Yukun, Zhang, Zihao, Lin, Yuling, and Lai, Zhongxiong

Subjects

MICRORNA, SOMATIC embryogenesis, LONGAN, LIGNINS, NON-coding RNA

Abstract

miRNAs are endogenous regulatory factors that play pivotal roles in post-transcriptional regulation. However, their specific roles in early somatic embryogenesis (SE) remain unclear. Study of the SE system is fundamental for clarifying the molecular mechanisms in Dimocarpus longan. We identified 289 known miRNAs from 106 different miRNA families and 1087 novel miRNAs during early longan SE, including embryogenic callus (EC), incomplete pro-embryogenic culture (ICpEC), globular embryo (GE), and non-embryogenic callus (NEC). The abundances of known miRNAs were concentrated in GE. The differentially expression (DE) miRNAs showed five expression patterns during early SE. Largely miRNAs were expressed highly and specially in EC, ICpEC, and GE, respectively. Some miRNAs and putative target genes were enriched in lignin metabolism. Most potential targets were related to the pathways of plant hormone signal transduction, alternative splicing, tyrosine metabolism and sulfur metabolism in early longan SE. The regulatory relationships between dlo-miR166a-3p and DlHD-zip8, dlo-miR397a and DlLAC7, dlo-miR408-3p and DlLAC12 were confirmed by RNA ligase-mediated rapid amplification of cDNA ends. The expression patterns of eight DE miRNAs detected by qRT-PCR were consistent with RNA-seq. Finally, the miRNA regulatory network in early SE was constructed, which provided new insight into molecular mechanism of early SE in longan. [ABSTRACT FROM AUTHOR]

Published

2020

5. Genome-wide investigation of superoxide dismutase (SOD) gene family and their regulatory miRNAs reveal the involvement in abiotic stress and hormone response in tea plant (Camellia sinensis).

Author

Zhou, Chengzhe, Zhu, Chen, Fu, Haifeng, Li, Xiaozhen, Chen, Lan, Lin, Yuling, Lai, Zhongxiong, and Guo, Yuqiong

Subjects

REGULATOR genes, GENE families, ABIOTIC stress, TEA, SUPEROXIDE dismutase, MICRORNA, PHYSIOLOGICAL effects of cold temperatures, JASMONATE

Abstract

Superoxide dismutases (SODs), as a family of metalloenzymes related to the removal of reactive oxygen species (ROS), have not previously been investigated at genome-wide level in tea plant. In this study, 10 CsSOD genes were identified in tea plant genome, including 7 Cu/Zn-SODs (CSDs), 2 Fe-SODs (FSDs) and one Mn-SOD (MSD), and phylogenetically classified in three subgroups, respectively. Physico-chemical characteristic, conserved motifs and potential protein interaction analyses about CsSOD proteins were carried out. Exon-intron structures and codon usage bias about CsSOD genes were also examined. Exon-intron structures analysis revealed that different CsSOD genes contained various number of introns. On the basis of the prediction of regulatory miRNAs of CsSODs, a modification 5' RNA ligase-mediated (RLM)-RACE was performed and validated that csn-miR398a-3p-1 directly cleaves CsCSD4. By prediction of cis-acting elements, the expression patterns of 10 CsSOD genes and their regulatory miRNAs were detected under cold, drought, exogenous methyl jasmonate (MeJA) and gibberellin (GA3) treatments. The results showed that most of CsSODs except for CsFSD2 were induced under cold stress and CsCSDs may play primary roles under drought stress; exogenous GA3 and MeJA could also stimulated/inhibited distinct CsSODs at different stages. In addition, we found that csn-miR398a-3p-1 negatively regulated the expression of CsCSD4 may be a crucial regulatory mechanism under cold stress. This study provides a certain basis for the studies about stress resistance in tea plants, even provide insight into comprehending the classification, evolution, diverse functions and influencing factors of expression patterns for CsSOD genes. [ABSTRACT FROM AUTHOR]

Published

2019

6. Exploration of the effect of blue light on microRNAs involved in the accumulation of functional metabolites of longan embryonic calli through RNA‐sequencing.

Author

Li, Hansheng, Chen, Xiaohui, Wang, Yun, Yao, Deheng, Lin, Yuling, and Lai, Zhongxiong

Subjects

MICRORNA, MITOGEN-activated protein kinases, GENES, METABOLITES, GENOMES

Abstract

BACKGROUND: The regulation of functional metabolites under light by structural genes and regulatory genes is understood but the roles of microRNAs in this pathway have rarely been reported and their regulation network is not yet clear. RESULTS: Blue light was most conducive to promoting the synthesis of some functional metabolites in longan embryonic callus (ECs). In this study, we sequenced three small RNA libraries of constructed longan ECs under different light qualities (dark, blue, and white). A total of 29 and 22 miRNAs were differentially expressed in the dark versus blue (DB) and dark versus white (DW) combinations, respectively. According to Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis, most of the differentially expressed miRNA target genes were involved in plant hormone signal transduction, mitogen‐activated protein kinase (MAPK) signaling, biosynthesis of unsaturated fatty acids, and so on. Cytoscape analysis of the target genes of miRNAs indicated that miR396b‐5p and miR5139 had the most target genes in DB. Moreover, this study also found that miR171f_3 targeted DELLA, miR390e targeted BRI1, miR396b‐5p targeted EBF1/2 and EIN3; these miRNAs participated in the blue light signaling network through their target genes and regulated the accumulation of longan functional metabolites. CONCLUSIONS: The results of the study revealed that the expressions of phase‐specific miRNAs vary with the change of functional metabolites in longan ECs. This study provides new insights into the molecular mechanisms that allow light to influence plant metabolism. © 2018 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2019

7. High-throughput sequencing of small RNAs revealed the diversified cold-responsive pathways during cold stress in the wild banana (Musa itinerans).

Author

Liu, Weihua, Cheng, Chunzhen, Chen, Fanglan, Ni, Shanshan, Lin, Yuling, and Lai, Zhongxiong

Subjects

EFFECT of cold on plants, BANANAS, MICRORNA, PHYSIOLOGICAL effects of cold temperatures, ABIOTIC stress, RNA sequencing

Abstract

Background: Cold stress is one of the most severe abiotic stresses affecting the banana production. Although some miRNAs have been identified, little is known about the role of miRNAs in response to cold stress in banana, and up to date, there is no report about the role of miRNAs in the response to cold stress in the plants of the cultivated or wild bananas. Result: Here, a cold-resistant line wild banana (Musa itinerans) from China was used to profile the cold-responsive miRNAs by RNA-seq during cold stress. Totally, 265 known mature miRNAs and 41 novel miRNAs were obtained. Cluster analysis of differentially expressed (DE) miRNAs indicated that some miRNAs were specific for chilling or 0 °C treated responses, and most of them were reported to be cold-responsive; however, some were seldom reported to be cold-responsive in response to cold stress, e.g., miR395, miR408, miR172, suggesting that they maybe play key roles in response to cold stress. The GO and KEGG pathway enrichment analysis of DE miRNAs targets indicated that there existed diversified cold-responsive pathways, and miR172 was found likely to play a central coordinating role in response to cold stress, especially in the regulation of CK2 and the circadian rhythm. Finally, qPCR assays indicated the related targets were negatively regulated by the tested DE miRNAs during cold stress in the wild banana. Conclusions: In this study, the profiling of miRNAs by RNA-seq in response to cold stress in the plants of the wild banana (Musa itinerans) was reported for the first time. The results showed that there existed diversified cold-responsive pathways, which provided insight into the roles of miRNAs during cold stress, and would be helpful for alleviating cold stress and cold-resistant breeding in bananas. [ABSTRACT FROM AUTHOR]

Published

2018

8. Effects of blue light on flavonoid accumulation linked to the expression of miR393, miR394 and miR395 in longan embryogenic calli.

Author

Li, Hansheng, Lin, Yuling, Chen, Xiaohui, Bai, Yu, Wang, Congqiao, Xu, Xiaoping, Wang, Yun, and Lai, Zhongxiong

Subjects

*PHYSIOLOGICAL effects of blue light, *GENE expression, *FLAVONOIDS, *MICRORNA, *PLANT growth, *TRANSCRIPTION factors

Abstract

While flavonoid metabolism’s regulation under light conditions by structural genes and transcription factors is understood, the roles of microRNAs (miRNAs) in this pathway have been rarely reported. In this paper, the accurate control of light was firstly enabled through the specially designed plant growth chamber which ensures consistency and accuracy of the cultivation of longan ECs and the repeatability of the experiments. Then, longan ECs were cultured in this chamber for 25 days. The change of growth rate of longan ECs was compared under different light qualities (dark, blue, green, white, green), intensities (16, 32, 64, 128, 256 μmol ·m-2 ·s-1), and durations (8 h, 12 h, 16 h, 20h, 24h). Results indicated that longan ECs had a high growth rate in the condition of blue or green light, at intensity ranged from 16 μmol·m-2·s-1 to 64 μmol·m-2·s-1, and duration from 8 h to 16 h. In addition, the contents of total flavonoids, rutin, and epicatechin were determined. Results indicated that flavonoid contents of longan ECs reached the highest value under blue light, at 32 μmol·m-2·s-1 and 12h/d. Blue light promoted the accumulation of epicatechin, but inhibited the synthesis of rutin. Finally, the expressions of flavonoid pathway genes, miRNAs and target genes were analyzed by qPCR. These results indicated that miR393 and its target gene DlTIR1-3, miR394 and its target gene DlAlMT12, and miR395 and its target gene DlAPS1 had a negative regulating relationship under blue light in longan ECs. Furthermore, miR393, miR394, and miR395 acted on target genes, which negatively regulated flavonoid key genes DlFLS and positively regulated key genes DlCHS, DlCHI, DlF3′H, DlDFR, DlLAR, and finally affected the accumulation of flavonoids. The treatment of longan ECs under the blue light at the intensity of 32 μmol·m-2·s-1 for 12 h/d inhibited the expression of miR393, miR394 and miR395, which promoted the expression of target genes and the accumulation of flavonoids and epicatechin, but inhibited the synthesis of rutin. [ABSTRACT FROM AUTHOR]

Published

2018

9. Combined small RNA and degradome sequencing reveals complex microRNA regulation of catechin biosynthesis in tea (Camellia sinensis).

Author

Sun, Ping, Cheng, Chunzhen, Lin, Yuling, Zhu, Qiufang, Lin, Jinke, and Lai, Zhongxiong

Subjects

TEA analysis, NON-coding RNA, MICRORNA, CATECHIN, BIOSYNTHESIS, PLANT growth, CELLULAR signal transduction

Abstract

MicroRNAs are endogenous non-coding small RNAs playing crucial regulatory roles in plants. Tea, a globally popular non-alcoholic drink, is rich in health-enhancing catechins. In this study, 69 conserved and 47 novel miRNAs targeting 644 genes were identified by high-throughout sequencing. Predicted target genes of miRNAs were mainly involved in plant growth, signal transduction, morphogenesis and defense. To further identify targets of tea miRNAs, degradome sequencing and RNA ligase-mediated rapid amplification of 5’cDNA ends (RLM-RACE) were applied. Using degradome sequencing, 26 genes mainly involved in transcription factor, resistance protein and signal transduction protein synthesis were identified as potential miRNA targets, with 5 genes subsequently verified. Quantitative real-time PCR (qRT-PCR) revealed that the expression patterns of novel-miR1, novel-miR2, csn-miR160a, csn-miR162a, csn-miR394 and csn-miR396a were negatively correlated with catechin content. The expression of six miRNAs (csn-miRNA167a, csn-miR2593e, csn-miR4380a, csn-miR3444b, csn-miR5251 and csn-miR7777-5p.1) and their target genes involved in catechin biosynthesis were also analyzed by qRT-PCR. Negative and positive correlations were found between these miRNAs and catechin contents, while positive correlations were found between their target genes and catechin content. This result suggests that these miRNAs may negatively regulate catechin biosynthesis by down-regulating their biosynthesis-related target genes. Taken together, our results indicate that miRNAs are crucial regulators in tea, with the results of 5’-RLM-RACE and expression analyses revealing the important role of miRNAs in catechin anabolism. Our findings should facilitate future research to elucidate the function of miRNAs in catechin biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2017

10. Growth Promotion-Related miRNAs in Oncidium Orchid Roots Colonized by the Endophytic Fungus Piriformospora indica.

Author

Ye, Wei, Shen, Chin-Hui, Lin, Yuling, Chen, Peng-Jen, Xu, Xuming, Oelmüller, Ralf, Yeh, Kai-Wun, and Lai, Zhongxiong

Subjects

MICRORNA, ONCIDIUM, ENDOPHYTIC fungi, PLANT ecology, PLANT root ecology, COMPUTATIONAL biology, PLANT physiology

Abstract

Piriformospora indica, an endophytic fungus of Sebacinales, colonizes the roots of a wide range of host plants and establishes various benefits for the plants. In this work, we describe miRNAs which are upregulated in Oncidium orchid roots after colonization by the fungus. Growth promotion and vigorous root development were observed in Oncidium hybrid orchid, while seedlings were colonized by P. indica. We performed a genome-wide expression profiling of small RNAs in Oncidium orchid roots either colonized or not-colonized by P. indica. After sequencing, 24,570,250 and 24744,141 clean reads were obtained from two libraries. 13,736 from 17,036,953 unique sequences showed homology to either 86 miRNA families described in 41 plant species, or to 46 potential novel miRNAs, or to 51 corresponding miRNA precursors. The predicted target genes of these miRNAs are mainly involved in auxin signal perception and transduction, transcription, development and plant defense. The expression analysis of miRNAs and target genes demonstrated the regulatory functions they may participate in. This study revealed that growth stimulation of the Oncidium orchid after colonization by P. indica includes an intricate network of miRNAs and their targets. The symbiotic function of P. indica on Oncidium orchid resembles previous findings on Chinese cabbage. This is the first study on growth regulation and development of Oncidium orchid by miRNAs induced by the symbiotic fungus P. indica. [ABSTRACT FROM AUTHOR]

Published

2014

11. Comparative Analysis Reveals Dynamic Changes in miRNAs and Their Targets and Expression during Somatic Embryogenesis in Longan (Dimocarpus longan Lour.).

Author

Lin, Yuling and Lai, Zhongxiong

Subjects

*MICRORNA, *GENE targeting, *SOMATIC embryogenesis, *GENE expression, *LONGAN, *DIMOCARPUS, *EMBRYOLOGY, *COMPARATIVE studies

Abstract

Somatic embryogenesis (SE), which resembles zygotic embryogenesis, is an essential component of the process of plant cell differentiation and embryo development. Although microRNAs (miRNAs) are important regulators of many plant develop- mental processes, their roles in SE have not been thoroughly investigated. In this study, we used deep-sequencing, computational, and qPCR methods to identify, profile, and describe conserved and novel miRNAs involved in longan (Dimocarpus longan) SE. A total of 643 conserved and 29 novel miRNAs (including star strands) from more than 169 miRNA families were identified in longan embryogenic tissue using Solexa sequencing. By combining computational and degradome sequencing approaches, we were able to predict 2063 targets of 272 miRNAs and verify 862 targets of 181 miRNAs. Target annotation revealed that the putative targets were involved in a broad variety of biological processes, including plant metabolism, signal transduction, and stimulus response. Analysis of stage- and tissue-specific expressions of 20 conserved and 4 novel miRNAs indicated their possible roles in longan SE. These miRNAs were dlo-miR156 family members and dlo-miR166c* associated with early embryonic culture developmental stages; dlo-miR26, dlo-miR160a, and families dlo-miR159, dlo-miR390, and dlo-miR398b related to heart-shaped and torpedo- shaped embryo formation; dlo-miR4a, dlo-miR24, dlo-miR167a, dlo-miR168a*, dlo-miR397a, dlo-miR398b.1, dlo-miR398b.2, dlo-miR808 and dlo-miR5077 involved in cotyledonary embryonic development; and dlo-miR17 and dlo-miR2089*-1 that have regulatory roles during longan SE. In addition, dlo-miR167a, dlo-miR808, and dlo-miR5077 may be required for mature embryo formation. This study is the first reported investigation of longan SE involving large-scale cloning, characterization, and expression profiling of miRNAs and their targets. The reported results contribute to our knowledge of somatic embryo miRNAs and provide insights into miRNA biogenesis and expression in plant somatic embryo development. [ABSTRACT FROM AUTHOR]

Published

2013

12. Growth Promotion-Related miRNAs in Oncidium Orchid Roots Colonized by the Endophytic Fungus Piriformospora indica.

Author

Ye, Wei, Shen, Chin-Hui, Lin, Yuling, Chen, Peng-Jen, Xu, Xuming, Oelmüller, Ralf, Yeh, Kai-Wun, and Lai, Zhongxiong

Subjects

*MICRORNA, *ONCIDIUM, *ENDOPHYTIC fungi, *PLANT ecology, *PLANT root ecology, *COMPUTATIONAL biology, *PLANT physiology

Abstract

Piriformospora indica, an endophytic fungus of Sebacinales, colonizes the roots of a wide range of host plants and establishes various benefits for the plants. In this work, we describe miRNAs which are upregulated in Oncidium orchid roots after colonization by the fungus. Growth promotion and vigorous root development were observed in Oncidium hybrid orchid, while seedlings were colonized by P. indica. We performed a genome-wide expression profiling of small RNAs in Oncidium orchid roots either colonized or not-colonized by P. indica. After sequencing, 24,570,250 and 24744,141 clean reads were obtained from two libraries. 13,736 from 17,036,953 unique sequences showed homology to either 86 miRNA families described in 41 plant species, or to 46 potential novel miRNAs, or to 51 corresponding miRNA precursors. The predicted target genes of these miRNAs are mainly involved in auxin signal perception and transduction, transcription, development and plant defense. The expression analysis of miRNAs and target genes demonstrated the regulatory functions they may participate in. This study revealed that growth stimulation of the Oncidium orchid after colonization by P. indica includes an intricate network of miRNAs and their targets. The symbiotic function of P. indica on Oncidium orchid resembles previous findings on Chinese cabbage. This is the first study on growth regulation and development of Oncidium orchid by miRNAs induced by the symbiotic fungus P. indica. [ABSTRACT FROM AUTHOR]

Published

2014

13. Genome-wide analysis of zinc finger motif-associated homeodomain (ZF-HD) family genes and their expression profiles under abiotic stresses and phytohormones stimuli in tea plants (Camellia sinensis).

Author

Zhou, Chengzhe, Zhu, Chen, Xie, Siyi, Weng, Jingjing, Lin, Yuling, Lai, Zhongxiong, and Guo, Yuqiong

Subjects

*TEA growing, *ABIOTIC stress, *ZINC-finger proteins, *GENE expression profiling, *TEA, *GENE families, *PLANT genomes

Abstract

• A total of 18 CsZF-HDs were confirmed from tea plant genome. • CsZF-HD genes have spatio-temporal expression patterns in various tissues. • All the CsZF-HDs we detected differentially expressed under diverse treatments. • Some CsZF-HDs may be regulated by miRNAs under abiotic stresses and hormones stimuli. • The predicted eTM of csn-miR2673a may indirectly modulate CsZF-HD under SA treatment. In plants, zinc finger motif-associated homeodomain (ZF-HD) transcription factors (TFs) play indispensable roles in developmental processes and stress responses. However, the specific functions of members of the ZF-HD gene family in tea plants (Camellia sinensis) are poorly understood. We identified 18 CsZF-HD genes in tea at the whole-genome scale. These genes were phylogenetically classified into two major subfamilies: ZF-HD and MIF. Gene structural analyses showed that 13 of the 18 members have no introns. Analysis of transcriptome data revealed different spatio-temporal expression patterns of CsZF-HD genes in various tissues. On the basis of the cis -acting elements analysis, we detected the expression patterns of CsZF-HD genes under various abiotic and phytohormone treatments (drought, cold, exogenous SA, MeJA, ABA, and GA 3). Quantitative real time polymerase chain reaction (qRT-PCR) analyses confirmed the differential expression of CsZF-HDs under diverse stress and phytohormone treatments. The miRNAs that regulate CsZF-HD genes and their endogenous target mimics (eTMs) were predicted and investigated. The expression patterns of CsZF-HD10 and csn-miR172b-5p-3 were completely opposite under salicylic acid treatment. We also detected negative regulatory relationships between csn-miR2673a and CsZF-HD15 under salicylic acid treatment, between csn-miR399a-5 and CsZF-HD9 under abscisic acid treatment, and between csn-miR2673a and CsZF-HD3 under methyl jasmonate treatment during most sequential stages. The results indicate that the predicted eTM (LTCONS-00,013,981) of csn-miR2673a may indirectly modulate CsZF-HD expression by baiting relevant miRNAs under salicylic acid treatment. Together, these results lay the foundation for further research on the biological functions of CsZF-HDs. [ABSTRACT FROM AUTHOR]

Published

2021