ANALISIS TRANSKRIPTOMIK UNTUK MENDESKRIPSIKAN PENGARUH PENYALUTAN KITOSAN TERHADAP EKSPRESI KELOMPOK GEN METABOLISME KLOROFIL SELAMA PEMATANGAN PISANG CAVENDISH (MUSA ACUMINATA âCAVENDISHâ, AAA)
Banana is a climacteric fruit whose ripening process can occur quickly and is susceptible to post-harvest damage. One of the mechanisms that occur during banana ripening is chlorophyll degradation. Chlorophyll metabolism includes biosynthetic and degradation processes involving various intermedia...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/66273 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Banana is a climacteric fruit whose ripening process can occur quickly and is susceptible to
post-harvest damage. One of the mechanisms that occur during banana ripening is chlorophyll
degradation. Chlorophyll metabolism includes biosynthetic and degradation processes
involving various intermediate catabolites. One of the intermediate catabolites is
chlorophyllide in chlorophyll biosynthesis which has the ability as an antioxidant, antiviral,
and antimicrobial that can help fruit defense during the fruit ripening process. Based on
previous research, chitosan is often applied to inhibit fruit ripening because it has antimicrobial,
antifungal, biodegradable, non-toxic, and moisture absorption abilities. So it is suspected that
the chitosan coating will affect the expression level of the chlorophyll metabolism gene group.
Research on the effect of chitosan coating on chlorophyll metabolism in fruit flesh during
banana fruit ripening at the gene level using a transcriptomic approach is still not well defined
until now. This study was conducted to determine the effect of chitosan coating on the
expression level of chlorophyll metabolism gene groups in fruit flesh during the ripening
process of Musa acuminata 'Cavendish' fruit. The secondary data used were the results of
RNA-seq of Musa acuminata 'Cavendish' fruit on the first and seventh days of control and
chitosan treatment. Identification of differencial expressed gene (DEG) was performed using
the Tuxedo method, and visualized with CummeRbund. Functional annotation analysis and
enrichment analysis were performed with the KEGG database alignment. Based on the results
of the analysis, the pattern of gene expression related to chlorophyll metabolism in the fruit
ripening process in the control treatment (7K/1K) and chitosan (7A/1A) showed the same
pattern, which led to the reduction of pigmented catabolites, accumulation of chlorophyllide,
and degradation of chlorophyll. The effect of chitosan related to the expression of chlorophyll
metabolism genes is shown by an expression pattern that is always opposite to the ripening
process, indicating that the fruit still retains pigment with chlorophyll biosynthesis, reducing
gene expression related to chlorophyllide synthesis presumably because chitosan has
antioxidant and antimicrobial properties similar to chlorophyllide so it can provide protection
to fruit, as well as reducing the expression of chlorophyll degradation genes. Significantly upregulated
gene expression differences (1A/1K & 7A/7K) were the genes Ma02_g04400,
Ma11_g23950, Ma10_g16570, Ma10_g26330, Ma09_g29720. While the down-regulated is
Ma06_g24000. |
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