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The Prenylated Rab GTPase Receptor PRA1.F4 Contributes to Protein Exit from the Golgi Apparatus
Lee, Myoung Hui,Yoo, Yun-Joo,Kim, Dae Heon,Hanh, Nguyen Hong,Kwon, Yun,Hwang, Inhwan American Society of Plant Biologists 2017 Plant Physiology Vol.174 No.3
<P>Prenylated Rab acceptor1 (PRA1) functions in the recruitment of prenylated Rab proteins to their cognate organelles. Arabidopsis (Arabidopsis thaliana) contains a large number of proteins belonging to the AtPRA1 family. However, their physiological roles remain largely unknown. Here, we investigated the physiological role of AtPRA1.F4, a member of the AtPRA1 family. A T-DNA insertion knockdown mutant of AtPRA1.F4, atpra1.f4, was smaller in stature than parent plants and possessed shorter roots, whereas transgenic plants overexpressing HA:AtPRA1.F4 showed enhanced development of secondary roots and root hairs. However, both overexpression and knockdown plants exhibited increased sensitivity to high-salt stress, lower vacuolar Na+/K+-ATPase and plasma membrane ATPase activities, lower and higher pH in the vacuole and apoplast, respectively, and highly vesiculated Golgi apparatus. HA:AtPRA1.F4 localized to the Golgi apparatus and assembled into high-molecular-weight complexes. atpra1.f4 plants displayed a defect in vacuolar trafficking, which was complemented by low but not high levels of HA:AtPRA1.F4. Overexpression of HA:AtPRA1.F4 also inhibited protein trafficking at the Golgi apparatus, albeit differentially depending on the final destination or type of protein: trafficking of vacuolar proteins, plasma membrane proteins, and trans-Golgi network (TGN)-localized SYP61 was strongly inhibited; trafficking of TGN-localized SYP51 was slightly inhibited; and trafficking of secretory proteins and TGN-localized SYP41 was negligibly or not significantly inhibited. Based on these results, we propose that Golgi-localized AtPRA1.F4 is involved in the exit of many but not all types of post-Golgi proteins from the Golgi apparatus. Additionally, an appropriate level of AtPRA1.F4 is crucial for its function at the Golgi apparatus.</P>
Lee Myoung Hui,Lee Jiyoung,Choi Seung A,Kim Ye-Sol,Koo Okjae,Choi Seung Hee,Ahn Woo Seok,Jie Eun Yee,Kim Suk Weon 한국식물생명공학회 2020 Plant biotechnology reports Vol.14 No.6
Nowadays, genome editing in plants has become much easier thanks to the recently developed clustered regularly interspaced short palindromic repeat (CRISPR)-associated protein 9 (CRISPR–Cas9) nuclease system. However, to combine protoplast technology with the CRISPR–Cas9 system in plants, a stable and an efcient foreign DNA delivery system is essential for gene editing. In the present study, we developed an electro-transfection system for CRISPR–Cas9 ribonucleoprotein (RNP) delivery to cabbage protoplasts. Under 1000 V treatment, the frequency of initial cell division and total number of cell colonies formed were 47.7±2.5% and 52±7.5%, respectively. The total number of cell colonies formed following 1000 V treatment was 1.4 times higher than that following polyethylene glycol (PEG) treatment. However, the frequency of initial cell division and total number of cell colonies formed from protoplasts decreased with increasing voltage. Cy3–Cas9 protein delivery into the nucleus was confrmed through both electro-transfection and PEG-mediated transfection using confocal laser scanning microscopy. The frequency of insertions and deletions in the synthesized guide RNA of phytoene desaturase 1 was the highest at 3.4% following electro-transfection at 1000 V with a pulse width of 20 ms and only 1.8% following PEG-mediated transfection. These results indicate that electro-transfection is more efcient in RNP delivery to protoplast than PEG-mediated transfection in cabbage for PDS1 sgRNA delivery. Therefore, the electro-transfection system developed in the present study presents the possibility it could be used for DNA-free genome editing of other crops.
Lee, Tae-Kyeong,Chen, Bai Hui,Lee, Jae-Chul,Shin, Myoung Cheol,Cho, Jun Hwi,Lee, Hyang-Ah,Choi, Jung Hoon,Hwang, In Koo,Kang, Il Jun,Ahn, Ji Hyeon,Park, Joon Ha,Choi, Soo Young,Won, Moo-Ho SPANDIDOS PUBLICATIONS 2018 MOLECULAR MEDICINE REPORTS Vol.17 No.6
<P>Insulin-like growth factor-I (IGF-I) is a multifunctional protein present in the central nervous system. A number of previous studies have revealed alterations in IGF-I and its receptor (IGF-IR) expression in various regions of the brain. However, there are few reports on age-dependent alterations in IGF-I and IGF-IR expressions in the olfactory bulb, which contains the secondary neurons of the olfactory system. The present study examined the cellular morphology in the olfactory bulb by using cresyl violet (CV) staining at postnatal month (PM) 3 in the young group, PM 6 in the adult group and PM 24 in the aged group in gerbils. In addition, detailed examinations were performed of the protein levels and immunoreactivities of IGF-I and IGF-IR in the olfactory bulb in each group. There were no significant changes in the cellular morphology between the three groups. The protein levels and immunoreactivities of the IGF-I and IGF-IR were the highest in the young group and they decreased with age. He protein levels and immunoreactivities of the IGF-I and IGF-IR were the lowest in the aged group. In brief, our results indicate that IGF-I and IGF-IR expressions are strong in young olfactory bulbs and significantly reduced in aged olfactory bulbs. In conclusion, subsequent decreases in IGF-I and IGF-IR expression with age may be associated with olfactory decline. Further studies are required to investigate the roles of IFG-I and IGF-IR in disorders of the olfactory system.</P>
밀 유전자원의 단백질 특성 분석 및 글루텐 단백질 조성 평가
이명희(Myoung Hui Lee),최창현(Changhyun Choi),김경훈(Kyeong-Hoon Kim),손재한(Jae-Han Son),박진희(Jinhee Park),이고은(Go Eun Lee),최준용(Jun Yong Choi),강천식(Chon-Sik Kang),손지영(Jiyoung Shon),고종민(Jong-Min Ko),김경민(Kyeong-Min K 한국육종학회 2022 한국육종학회지 Vol.54 No.4
Gluten proteins in wheat grains are generally considered one of the most important factors in determining dough properties and bread quality. In this study, wheat protein quality characteristics were investigated in 607 varieties collected from seven countries grown in a South Korean wheat breeding field for two years. The average protein content was 12.2±1.86%, and the sodium dodecyl sulfate-sediment volume (SDSS) was 46.9±8.39 mL. HI-LINE had the highest protein content (18.3±0.35%) and SDSS (76.7±1.98 mL), while both NE 84557 and Iksan 374 showed small deviations in protein content and SDSS. Protein content and SDSS values were higher in Ax2*+By8 and By9+Dy10 combinations at Glu-A, Glu-B1, and Glu-D1 loci of high molecular weight gluten subunit (HMW-GS) than in other combinations. However, no difference in Glu-A3 and Glu-B3 loci in LMW-GS was observed. Furthermore, in HMW-GS, the composition of Glu-D1 Dy10 and Dy12 had a greater effect on protein quality than Glu-B1 By8 and By9 when the allele of Glu-A1 had Ax2*. Significant differences were found between Dy10 and Dy12 genes of the HMW-GS Glu-D1 and between protein content and SDSS, but not among others. These results suggest that Glu-D1 is extremely important for improving protein quality in HMW-GSs. As a result of this study, HMW-GS allele selection using functional markers, protein content, and SDSS investigation are expected to enable the development of varieties with high protein quality that are stable amid various environmental changes.