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Research Article

Transcriptional Profiling of Soft-rot Resistant Transgenic Chinese Cabbage (Brassica rapa L.) Constitutively Overexpressing a Human Cathelicidin Antimicrobial Peptide (hCAP18/LL-37)

Plant Breeding and Biotechnology 2013;1(1):80-90.
Published online: March 31, 2013

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*Corresponding author Yu-Jin Jung, yuyu1216@hknu.ac.kr, Tel: +82-31-678-4642, Fax: +82-31-670-5109
• Received: March 18, 2013   • Revised: March 22, 2013   • Accepted: March 22, 2013

Copyright © 2013 The Korean Society of Breeding Science

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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  • Soft rot disease caused by Pectobacterium carotovorum subsp. carotovorum (Pcc), is one of the most devastating diseases affecting the cruciferous plants industry worldwide. In our previous study, the soft rot-resistant transgenic Chinese cabbage (Brassica rapa L.) plants were produced via constitutively overexpressing a human cathelicidin antimicrobial peptide (hCAP18/LL-37). To unravel the molecular mechanisms underlying Pcc resistance of the transgenic plants, this study compares the global transcriptional profile of untransformed line (WT) and the transgenic lines (TG23, TG34) through hybridization with KBGP-24K, Chinese cabbage GeneChip. In total, 1,415 differentially expressed genes (DEGs) were identified, 910 of which were up-regulated, while 505 were down-regulated. The DEGs were classified into 31 categories after Gene ontology (GO) annotation, in which 68 genes are in response to stimulus and are involved in immune system process, 12 genes are related to cell wall, and 13 genes belong to transcription factors. These genes and those related to toxin and terpenoid metabolism, glutathione metabolism, biosynthesis of phenylpropanoids, and plant hormones were hypothesized to play major roles in the soft rot resistance of transgenic lines (TG23, TG34). Semiquantitative RT-PCR analysis showed that the transcript levels of several candidate genes in TG23 and TG34 were significantly higher than in WT both before and after Pcc inoculation, indicating their potential association with soft rot disease.
Bacterial and fungal plant pathogens severely affect crop productivity. For example, Xanthomonas campestris pv. campestris and Pectobacterium carotovorum subsp. carotovorum, which cause black rot and soft rot, respectively, are present worldwide and severely damage plants and reduce their yields, especially in cruciferous plants (Boman 2003). Therefore, the development of cruciferous plants that are resistant to black and soft rot diseases has been a major goal of researchers for several decades. Strategies based on transgenic approaches to enhance plant disease resistance involve the use of genes associated with plant defense pathways (Makandar et al. 2006; Zhang et al. 2007) and genes encoding plant or fungal hydrolytic enzymes (Bieri et al. 2003), defense-related transcription factors (Chen and Chen 2002; Sohn et al. 2006) and antimicrobial peptides (Alan et al. 2004). A large number of antimicrobial peptides from different organisms have been characterized (Simmaco et al. 1998). In our previous study, we produced transgenic Chinese cabbage plants with less susceptibility to soft rot via constitutively overexpressing a human cathelicidin antimicrobial peptide (hCAP18/LL-37) (Jung et al. 2012). The human cathelicidin antimicrobial protein hCAP18 is the only member of the mammalian cathelicidin family of proteins that is present in humans (Gudmundsson et al. 1996). The holoprotein consists of a conserved prodomain, a cathelin domain, and the non-conserved C-terminal peptide LL-37, which is enzymatically cleaved after secretion (Sorensen et al. 2001; Yamasaki et al. 2006). Its precursor molecule, an 18 kDa human cationic antimicrobial protein (hCAP-18), is secreted by activated neutrophil granulocytes. After release, the helical C-terminal end of this precursor comprising 37 amino acids is cleaved off, thereby forming the functional antimicrobial peptide LL-37 (Sorensen et al. 2001). Since LL-37 is the only human antimicrobial peptide that is active at physiological or elevated salt concentration conditions, there is a significant interest in using this peptide for pharmaceutical applications (De Smet and Contreras 2005; Reddy et al. 2004; Travis et al. 2000). In our previous study, the soft rot-resistant transgenic Chinese cabbage (Brassica rapa L.) plants were produced via constitutively overexpressing a human cathelicidin antimicrobial peptide (hCAP18/LL-37). To gain new insights into the molecular mechanisms of enhanced disease tolerance, genome-wide transcriptome analysis was conducted using the KBGP-24K, GeneChip microarray technology. The transcriptional profiling described here may contribute to explain molecular mechanism of polyamine in regulating plant pathogen response.
Microarray hybridization and data analysis
The leaves were collected from untransformed (WT) and transgenic lines (TG23, TG34) for hybridization with the GeneChip (http://www.brassica-rapa.org/BrMED/microarray_overview.jsp). In brief, two g leaves of WT, TG23 and TG34 were sampled from uniform new flushes (about 20 days after sprout) and then immediately immersed in liquid nitrogen and stored at −80°C. All the other processes including the total RNA extraction (20 μg at least), cDNA synthesis, cDNA fragmentation, hybridization, washing and staining, and scanning were performed as reported by Lee et al. (2008). To satisfy biological reproducibility requirements, the experiment was carried out using three independent biological replicates for both WT, TG23, TG34 (means among WT, TG23 and TG34 were hybridized with microarray for three times). The probe array was scanned with the GenePix scanner 4000B (Axon), and the images were analyzed with the NimbleScan (NimbleGen). The data were normalized and processed with cubic spline normalization using quantiles to adjust signal variations between chips and with Rubust Multi-Chip Analysis (RMA) using a median polish algorithm implemented in NimbleScan software (NimbleGen) (Irizarry et al. 2003; Workman et al. 2002). Analysis of variance (ANOVA) was used to compare the statistical expression difference between TG23 and WT. Probe sets with a P value ≤ 0.05 and 2-fold change were considered as differentially expressed genes (DEGs) between the two groups at a statistically significant level.
Microarray annotation and functional analysis
To assign putative functions of DEGs, Gene ontology (GO) term, Enzyme Commission (EC), and Kyoto Encyclopedia of Genes and Genomes (KEGG) annotation were performed using the Blast2GO (Conesa et al. 2005) software. Blast2GO assigns GO annotation through three steps, blasting, mapping, and annotation. GO terms for each of the three main categories (biological process, molecular function, and cellular component) was obtained by using the combined graphs function of the software with default parameters. The KEGG analysis were performed by using the KEGG annotating function of Blast2GO software, and the annotated KEGG pathways were further manually classified according to the published KEGG pathway lists (http://www.genome.jp/kegg/pathway.html).
Semiquantitative RT-PCR analysis
Semiquantitative RT-PCR was employed to validate the microarray results using the RNA samples for the hybridization experiments. Each RNA sample was pretreated with PCR amplification-grade RNase-free DNase I (Promega, Korea) at 37°C to exclude DNA contamination. cDNA synthesis was done using Reverse Trascriptase kit (Toyobo, Japan) following the manufacturer’s instructions. Specific primers of candidate genes were designed by Primer Premier 5.0 software (PRIMER Biosoft International, Palo Alto, CA) based on the Chinese cabbage consensus sequences downloaded from Brassica rapa Genome Project website (http://brassicadb.org/brad/). Each PCR reaction was composed of 50 ng cDNA, 2.0 μL 10× reaction buffer, 1.0 mM MgCl2, 0.2 mM dNTP, 1.0 U of DNA polymerase (Taq, Takara) and 0.4 μM of each primer in a total volume of 20 μL. PCR amplifications were performed at 94°C for 5 min, followed by 28–32 cycles of 94°C for 40 s, 52°C for 40 s, 72°C for 40 s and 5 min extension at 72°C. A BrActin gene (Table 1) was used as an internal positive control. Band intensity was quantified by Quantity One analysis software (Bio-Rad Laboratories), and the fold change was calculated by the signal intensity of TG23, TG34-specific product divided by the signal intensity of WT-specific product. In another experiment, semiquantitative RT-PCR was performed to evaluate the expression patterns of several genes before or after Pectobacterium carotovorum subsp. carotovorum (Pcc) inoculation. For this purpose, the leaves sampled from uniform new flushes (about 20 days after sprout) of WT, TG23 and Tg34 were divided into two groups, respectively. One group of leaves without Pcc inoculation (uninoculated leaves) were immediately immersed in liquid nitrogen and stored at −80°C. And another group of leaves were subjected to a pinprick inoculation with Pcc bacterial suspension as described by Jung et al. (2008). 48 hours after inoculation (hpi), the whole leaves of WT, TG23 and TG34 were collected and stored at −80°C. The total RNA was isolated from uninoculated (0 hpi) and inoculated leaves (24 hpi and 48 hpi ) according to Jung et al. (2008). The other processes including RNA pretreatment, cDNA synthesis, PCR amplification, and quantification of band intensity were the same as mentioned above.
Screening of the differentially expressed genes and verifying the microarray data
In our previous study, we produced transgenic Chinese cabbage plants with less susceptibility to soft rot via constitutively overexpressing a human cathelicidin antimicrobial peptide (hCAP18/LL-37) (Jung et al. 2012). To reveal the molecular mechanisms underlying soft rot resistance in transgenic lines, the global transcriptional profile of transgenic lines (TG23, TG34) and WT were compared by Chinese cabbage genome GeneChip analysis. After statistical analysis, 1,415 genes with signal ratio fold change larger than 2 or smaller than 0.5 (P value ≤ 0.05) between the transgenic lines and WT were identified as differentially expressed genes (DEGs). Among these genes, 910 were up-regulated and 505 were down-regulated (Fig. 1). In order to verify the reliability of the microarray data, 20 up-regulated and 20 down-regulated genes were randomly selected to analyze their expression levels in transgenic lines and WT via semiquantitative RT-PCR using gene-specific primers. The up-regulated genes ID are potential purine-cytosine permease (EAK95476), ataxia/oculomotor apraxia protein (AT1G62940), NADH dehydrogenase subunit (AAL91065), Cu/Zn superoxide dismutase copper chaperone like protein (AT1G12520), calcium-binding EF hand family protein (AT1G20760), PR-1 protein (AT4G25780), disease resistance-responsive family protein (AT1G64160) and protease inhibitor contains lipid transfer protein (LTP) (AT5G38195). However, the genes ID of down-regulated to low levels, and 20 out of 218 genes with log2 ratios lower than 0.5 are putative CCCH-type zinc finger protein (AT4G29190), novel cap-binding protein nCBP (AT5G18110), WRKY family transcription factor (AT4G18170), polygalacturonase inhibiting protein (AT5G06860), lectin like protein (AT4G19840), trichohyalin (CAH70024) and galactinol synthase-like protein (AT2G02930) (Table 2).
Functional annotation and classification of the differentially expressed genes
To further analyze the microarray data, the identified DEGs, including significantly up-regulated and down-regulated genes, were functionally annotated and classified using Blast2GO software. The functional categorization was performed according to biological process, molecular function, and cellular component using Blast2GO software. As shown in Fig. 2, the biological processes of these DEGs included mainly 16 categories such as cellular process, metabolic process, response to stimulus, localization and biological regulation, and among which the genes in response to stimulus and immune system process are of interest because they may participate in soft rot disease resistance directly. In addition, it is intriguing to find that most of these categories contained larger number of the up-regulated genes than the down-regulated genes, such as cellular process, metabolic process, response to stimulus, and so forth. In the immune system process, only up-regulated genes were assembled to this group. Molecular functions were primarily related to catalytic activity, transporter activity, electron carrier activity, transcription regulator activity, and others (Fig. 2). Cellular component included cell, organelle, macromolecular complex, extracellular region, membrane-enclosed lumen, and envelope. Similar to the biological process category, in molecular function and cellular component the number of up-regulated genes is larger than that of down-regulated genes (Fig. 2).
Validation of microarray data by real-time PCR
In order to validate our microarray results we performed quantitative real time PCR (qRT-PCR) to determine the expression levels of twenty genes selected from the list of up and down regulated genes (Table 1 and 2). A complete correlation of expression results in qRT-PCR and microarray was demonstrated in this study (Fig. 3). qRT-PCR determination of LL-37 transgenic and WT plants mRNA levels showed 10-fold increase in potential purine-cytosine permease, ataxia/oculomotor apraxia protein, Cu/Zn superoxide dismutase copper chaperone like protein, calcium-binding EF hand family protein, PR-1 protein, unknown protein, disease resistance-responsive family protein, plant defensin protein family and protease inhibitor contains lipid transfer protein (LTP). In contrast, WRKY family transcription factor, polygalacturonase inhibiting protein, putative peroxidase, lectin like protein, trichohyalin, glutathione S-transferase, unknown protein and galactinol synthase-like protein exhibited a 10-fold decrease. These results demonstrate which and to what extent genes were actively expressed upon intrusion of plant pathogen.
The expression of candidate genes before and after inoculation
The homozygous lines harboring the human LL-37 gene were evaluated for resistance to soft rot pathogen. Transgenic and control plants were inoculated with conidia, and the sizes of the disease lesions were determined. In order to test the resistance of the transgenic plants, we cultivated the cabbage soft rot pathogen P. carotovorum subsp. carotovorum on LB medium for 1–2 days. The whole leaf blade and leaf vein were infiltrated with 108 CFU/mL inoculum; subsequently, the pathogenesis at the leaf was examined at 24, 48, and 72 h after inoculation. The control cabbage plants displayed the symptoms 24 h after inoculation where leaves became softer with visible lesions. After 48 h, the symptom spread all over the leaves of the control plant which eventually died after 72 h due to roting and softening of the tissues. The wild type plants showed considerably 2-fold higher in disease severity compared with transgenic plants (Fig. 4A and B). After 48 h of inoculation, the highly expressed genes identified in transgenic plants were chaperone like protein gene, PR-1 protein gene, unknown protein gene, disease resistance-responsive protein gene, plant defensin protein gene, superoxide dismutase gene, protease inhibitor contains lipid transfer protein (LTP) gene and glutathione S-transferase-related genes (Fig. 4C). Our data suggested that the expression of these candidate genes were constitutively up-regulated in the transgenic line and can be further induced by the Pcc inoculation, providing important information and evidence for its potential role in soft rot disease resistance.
cDNA arrays were used to monitor transcript levels of LL-37 in transgenic plant, and as a gene discovery tool to identify genes whose expression is regulated during the plant-pathogen interaction. Bacterial plant pathogens severely affect crop productivity. A large number of antimicrobial peptides from different organisms have been characterized (Simmaco et al. 1998). The human cathelicidin antimicrobial protein hCAP18, which includes the C-terminal peptide LL-37, is a multifunctional protein (Jung et al. 2011; Kim and Martin 2004; Kunkel 2002). Strategies based on transgenic approaches to enhance plant disease resistance involve the use of genes associated with plant defense pathways (Makandar et al. 2006, Zhang et al. 2007) and genes encoding plant or fungal hydrolytic enzymes (Bieri et al. 2003), defense-related transcription factors (Chen and Chen 2002, Sohn et al. 2006) and antimicrobial peptides (Alan et al. 2004). When induced defense responses are rapidly and coordinately triggered during a given plant–pathogen interaction, plants become broadly resistant to diseases. These defense responses include the strengthening of mechanical barriers, oxidative burst, and production of antimicrobial compounds (Hammond-Kosack and Parker 2003; Park 2005). Some research has been performed to bolster plant defenses against bacteria and fungi by genetically engineering plants to express antimicrobial peptides (Lee et al. 2008; Prasad et al. 2008). Previously, we developed homozygous Chinese cabbage lines stably expressing LL-37, which did not cause adverse effects on the plant phenotypes (Jung et al. 2012). LL-37 peptide was properly targeted to the extracellular space even with a foreign plant signal peptide. Furthermore, the mammalian peptide was not subjected to a processing step in the foreign plant cell environment that rendered it inactive. Until now, studies involving the enhancement of resistance to various bacterial, fungal, and oomycete pathogens by the expression of antimicrobial peptides have been reported for rice, tobacco, poinsettia, banana, and more host species (Chakrabarti et al. 2003; Liang et al. 2002; Smith et al. 1998). However, progress on identifying the defense mechanisms in Chinese cabbage (B. rapa), an important vegetable crop in Asia, has been very slow. Here, we demonstrate that related gene expression by the human LL-37 peptide has antimicrobial activity through microarray analysis. Also, our pathogenicity assays suggest that the expression of LL-37 confers moderate level of resistance against P. carotovorum subsp. carotovorum at the inoculum concentration of 108 CFU/mL (Fig. 4A and B). Results of microarray analysis revealed the up-regulation of defensin protein such as PR-1 protein, plant defensin protein, disease resistance-responsive protein and LTP protein in the transgenic LL-37 plant over the WT (Table 1 and Fig. 4C). Defense-response genes that encode PR proteins and enzymes of phytoalexin biosynthesis, show transient increases in expression during the early stages of the symbiosis and then the transcript levels subsequently decline (Harrison and Dixon 1993; Gianinazzi-Pearson et al. 1996). On the other hand, down-regulation genes revealed inhibiting protein or transcription factor such as trichohyalin, polygalacturonase inhibiting protein, lectin like protein, CCCH-type zinc finger protein and WRKY transcription factor. Trichohyalin-like proteins regulate cell-cell interactions and communication, and provide key structural, positional and environmental signals during growth and development (Kim et al. 2003; Markus et al. 2006). Also, WRKY transcription factors (Rizhsky et al. 2002; Kalde et al. 2003) and zinc finger protein (Blackshear PJ 2002; Wang L et al. 2008) have also been implicated in plant defense to environmental stresses. The expression of the human LL-37 peptide is expected to confer durable resistance to a wide variety of pathogens infecting Chinese cabbage plants. Thus, other antimicrobial genes such as the bromelain gene (Jung et al. 2008) among others could be stacked with the human LL-37 gene by crossing different transgenic lines and this may be able to strongly and durably inhibit the growth of pathogens. The possible contribution of up-regulation of genes encoding proteins associated with the enhanced stress tolerance in our transgenic Chinese cabbage however requires further investigation.
Fig. 1
Hierarchical clustering among the genes highly expressed antimicrobial peptide LL-37 transgenic and wild type plants in Brassica rapa using KBGP-24K chip. Four representative patterns (A~D) displayed similar expression patterns, respectively. Expression values higher and lower than those of the control are shown in red and green, respectively.
pbb-01-80f1.jpg
Fig. 2
Functional categorization of upregulated and downregulated differentially expressed genes. 910 significantly upregulated and 505 significantly downregulated DEGs were categorized to biological process, molecular function, and cellular component based on GO annotation, and the represented number of each column was marked in the figure.
pbb-01-80f2.jpg
Fig. 3
Validation of microarray data. Each of twenty genes of up- and down-regulated genes showing differential expression in our microarray experiments was selected and their relative expression determined using qRT-PCR.
pbb-01-80f3.jpg
Fig. 4
Disease response and RT-PCR analysis in transgenic lines (TG23, TG34) and wild type. (A), (B) Enhancing bacterial disease resistance in transgenic plants to 3 days leaf after infection. (B) Semi-quntitative RT-PCR analysis of expression levels of candidate genes identified by microarray analysis in LL-37 transgenic and wild type control inoculated with 108 CFU/ml of P. carotovorum ssp. carotovorum after 48 hours.
pbb-01-80f4.jpg
Table 1
Significantly twenty up-regulated genes among genes in the LL-37 transgenic plants and wild type using KBGP-24K oligo chip.
Table 1
Clone number Fold over expression Gene ID Description
28869 48.87 EAK95476 Potential purine-cytosine permease
26645 31.37 AT1G62940 Similar to ataxia/oculomotor apraxia protein 2
22041 29.07 AAL91065 NADH dehydrogenase subunit 6
00544 21.29 AT1G12520 Cu/Zn superoxide dismutase copper chaperone like protein
00089 20.49 AT1G20693 Chromatin-associated proteins
24612 18.98 AAG51989 Glyoxalase II, putative
02138 18.76 AT1G20760 Calcium-binding EF hand family protein
01218 17.32 AT4G25780 PR-1 protein from Medicago truncatula
15181 17.29 AT1G22080 Unknown protein
19064 13.74 AT4G22880 Anthocyanidin synthase
19451 13.20 AT1G64160 Disease resistance-responsive family protein
11475 12.89 AT5G44420 Plant defensin protein family
00303 12.69 AT4G25100 Superoxide dismutase
01138 6.72 AT1G27310 Similar to nuclear transport factor 2
07649 4.68 AT1G06830 Glutaredoxin, putative
25621 4.32 AT2G21100 Disease resistance-responsive protein
04541 4.25 AT5G38195 Protease inhibitor contains lipid transfer protein (LTP)
19333 3.79 AT4G19880 Glutathione S-transferase-related
29028 3.71 AT1G28520 Putative myosin heavy chain
15849 3.39 AT5G57350 ATPase
Table 2
Significantly twenty down-regulated genes among genes in the LL-37 transgenic plants and wild type using KBGP-24K oligo chip.
Table 2
Clone number Fold down expression Gene ID Description
19596 0.39 AT4G29190 Putative CCCH-type zinc finger protein
03882 0.38 AT4G38960 RNA-directed DNA polymerase-like protein
14945 0.37 AT5G18110 Novel cap-binding protein nCBP
07928 0.37 AT4G18170 WRKY family transcription factor, similar to DNA-binding protein 2
16572 0.36 AT5G62360 Unknown protein
21724 0.36 AT5G06860 Polygalacturonase inhibiting protein 1
02287 0.35 AT5G05340 PERP7_BRARA Peroxidase P7 (TP7)
02119 0.35 AT3G55770 Putative transcription factor L2
00753 0.34 AT5G06730 Putative peroxidase
19993 0.33 AT4G19840 Lectin like protein
15333 0.33 AT3G53140 Caffeic acid O-methyltransferase-like protein
14083 0.32 AT3G18490 Putative chloroplast nucleoid DNA-binding protein
23389 0.32 CAH70024 Trichohyalin
04373 0.28 AT4G02980 Susceptible endoplasmic reticulum auxin-binding protein 2
14555 0.19 AT2G02930 Glutathione S-transferase 6
02692 0.17 AT5G02020 Putative protein
06607 0.15 AT1G56600 Galactinol synthase-like protein
24949 0.14 XP_416059 Similar to SF21 protein
00671 0.09 AT2G30490 Cinnamate-4-hydroxylase
02751 0.06 AT1G80130 Unknown protein
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Transcriptional Profiling of Soft-rot Resistant Transgenic Chinese Cabbage (Brassica rapa L.) Constitutively Overexpressing a Human Cathelicidin Antimicrobial Peptide (hCAP18/LL-37)
Plant Breed. Biotech.. 2013;1(1):80-90.   Published online March 31, 2013
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Transcriptional Profiling of Soft-rot Resistant Transgenic Chinese Cabbage (Brassica rapa L.) Constitutively Overexpressing a Human Cathelicidin Antimicrobial Peptide (hCAP18/LL-37)
Plant Breed. Biotech.. 2013;1(1):80-90.   Published online March 31, 2013
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Transcriptional Profiling of Soft-rot Resistant Transgenic Chinese Cabbage (Brassica rapa L.) Constitutively Overexpressing a Human Cathelicidin Antimicrobial Peptide (hCAP18/LL-37)
Image Image Image Image
Fig. 1 Hierarchical clustering among the genes highly expressed antimicrobial peptide LL-37 transgenic and wild type plants in Brassica rapa using KBGP-24K chip. Four representative patterns (A~D) displayed similar expression patterns, respectively. Expression values higher and lower than those of the control are shown in red and green, respectively.
Fig. 2 Functional categorization of upregulated and downregulated differentially expressed genes. 910 significantly upregulated and 505 significantly downregulated DEGs were categorized to biological process, molecular function, and cellular component based on GO annotation, and the represented number of each column was marked in the figure.
Fig. 3 Validation of microarray data. Each of twenty genes of up- and down-regulated genes showing differential expression in our microarray experiments was selected and their relative expression determined using qRT-PCR.
Fig. 4 Disease response and RT-PCR analysis in transgenic lines (TG23, TG34) and wild type. (A), (B) Enhancing bacterial disease resistance in transgenic plants to 3 days leaf after infection. (B) Semi-quntitative RT-PCR analysis of expression levels of candidate genes identified by microarray analysis in LL-37 transgenic and wild type control inoculated with 108 CFU/ml of P. carotovorum ssp. carotovorum after 48 hours.
Transcriptional Profiling of Soft-rot Resistant Transgenic Chinese Cabbage (Brassica rapa L.) Constitutively Overexpressing a Human Cathelicidin Antimicrobial Peptide (hCAP18/LL-37)

Significantly twenty up-regulated genes among genes in the LL-37 transgenic plants and wild type using KBGP-24K oligo chip.

Clone number Fold over expression Gene ID Description
28869 48.87 EAK95476 Potential purine-cytosine permease
26645 31.37 AT1G62940 Similar to ataxia/oculomotor apraxia protein 2
22041 29.07 AAL91065 NADH dehydrogenase subunit 6
00544 21.29 AT1G12520 Cu/Zn superoxide dismutase copper chaperone like protein
00089 20.49 AT1G20693 Chromatin-associated proteins
24612 18.98 AAG51989 Glyoxalase II, putative
02138 18.76 AT1G20760 Calcium-binding EF hand family protein
01218 17.32 AT4G25780 PR-1 protein from Medicago truncatula
15181 17.29 AT1G22080 Unknown protein
19064 13.74 AT4G22880 Anthocyanidin synthase
19451 13.20 AT1G64160 Disease resistance-responsive family protein
11475 12.89 AT5G44420 Plant defensin protein family
00303 12.69 AT4G25100 Superoxide dismutase
01138 6.72 AT1G27310 Similar to nuclear transport factor 2
07649 4.68 AT1G06830 Glutaredoxin, putative
25621 4.32 AT2G21100 Disease resistance-responsive protein
04541 4.25 AT5G38195 Protease inhibitor contains lipid transfer protein (LTP)
19333 3.79 AT4G19880 Glutathione S-transferase-related
29028 3.71 AT1G28520 Putative myosin heavy chain
15849 3.39 AT5G57350 ATPase

Significantly twenty down-regulated genes among genes in the LL-37 transgenic plants and wild type using KBGP-24K oligo chip.

Clone number Fold down expression Gene ID Description
19596 0.39 AT4G29190 Putative CCCH-type zinc finger protein
03882 0.38 AT4G38960 RNA-directed DNA polymerase-like protein
14945 0.37 AT5G18110 Novel cap-binding protein nCBP
07928 0.37 AT4G18170 WRKY family transcription factor, similar to DNA-binding protein 2
16572 0.36 AT5G62360 Unknown protein
21724 0.36 AT5G06860 Polygalacturonase inhibiting protein 1
02287 0.35 AT5G05340 PERP7_BRARA Peroxidase P7 (TP7)
02119 0.35 AT3G55770 Putative transcription factor L2
00753 0.34 AT5G06730 Putative peroxidase
19993 0.33 AT4G19840 Lectin like protein
15333 0.33 AT3G53140 Caffeic acid O-methyltransferase-like protein
14083 0.32 AT3G18490 Putative chloroplast nucleoid DNA-binding protein
23389 0.32 CAH70024 Trichohyalin
04373 0.28 AT4G02980 Susceptible endoplasmic reticulum auxin-binding protein 2
14555 0.19 AT2G02930 Glutathione S-transferase 6
02692 0.17 AT5G02020 Putative protein
06607 0.15 AT1G56600 Galactinol synthase-like protein
24949 0.14 XP_416059 Similar to SF21 protein
00671 0.09 AT2G30490 Cinnamate-4-hydroxylase
02751 0.06 AT1G80130 Unknown protein
Table 1 Significantly twenty up-regulated genes among genes in the LL-37 transgenic plants and wild type using KBGP-24K oligo chip.
Table 2 Significantly twenty down-regulated genes among genes in the LL-37 transgenic plants and wild type using KBGP-24K oligo chip.