Fission Expands Footprint and High-Grade Core at R780E with Multiple Step Out Holes

Triple R’s 780E Zone Increased Laterally, Vertically and On-Strike with Step Out Drilling

FISSION URANIUM CORP. (“Fission” or “the Company“) is pleased to announce results from nineteen holes drilled at the R780E zone of its Triple R deposit at PLS, in Canada’s Athabasca Basin region. Seventeen of the nineteen angled holes are mineralized, while 2 holes intersected narrow and weakly anomalous radioactivity. Of particular note is hole PLS15-368 (line 480E), which intercepted 8.98m total composite >10,000 cps radioactivity with peaks up to 65,500 cps in a 57.0m zone of mineralization. Importantly, PLS15-368, drilled 20m down-dip of PLS15-299 adds a high-grade dimension to the significant mineralized lateral width added by holes PLS15-299 and PLS15-311 (see News Release Jan 26, 2015 and February 10, 2015 respectively). In addition, through extensive step-out drilling, the boundaries of the R780E Zone have been increased on multiple lines along strike to the east, vertically (both up and down dip) and laterally north and south. As a result of the success and speed of drilling, the winter exploration budget will expand by $3M adding approximately 28 holes.

Ross McElroy, President, COO, and Chief Geologist for Fission, commented,

“This latest round of drill results, which includes a large number of step-out holes, represents a big step forward in the continued growth of the Triple R’s R780E zone. In addition to expanding the overall footprint of the zone, we have successfully targeted the on-strike extension of the high-grade domain west of line 495E. As shown by the model used for the Triple R resource estimate we released in January, 2015, each high-grade hole makes a significant impact on the size of the deposit, so continued extension of this high-grade core is a top priority.”

Drilling Highlights Include:

• R780E Zone high-grade core expanded to the west on line 480E (PLS15-368)
• Sixteen holes intersected significant mineralization outside of the boundaries used to define the resource estimate (see News Release January 09, 2015)
• Hole PLS15-368 (line 480E)
  • 79.5m total composite mineralization over a 162.5m section (between 66.5m – 229.0m) including:
    • 8.98m total composite mineralization of >10,000 cps radioactivity
• Hole PLS15-325 (line 720E)
  • 47.0m total composite mineralization over a 86.0m section (between 138.0m – 224.0m) including:
    • 1.80m total composite mineralization of >10,000 cps radioactivity
  • Step-out drilling has expanded the Triple R Deposit’s R780E Zone footprint vertically, laterally to the north and south and along strike to the east:

o East (on Strike):

• 90m (line 1245E)
• 30m (line 1185E)

o North:

• 60m (line 870E)
• 10m (line 9990E)
• 6m (line 975E)

o South:

• 10m (line 705E)

o Vertical (up-dip):

• 20m (line 855E)
• 30m (line 870E)
• 60m (line 1020E)
• 40m (line 1050E)
• 40m (line 1080E)
• 10m (line 1110E)

o Vertical (down-dip)

• 40m (line 720E)
• 70m (line 750E)
• 50m (line 855E)
• 20m (line 990E)

Winter Program Expansion: As a result of highly positive drill results, together with drilling speed and efficiency and favorable winter conditions, the winter exploration budget is being expanded by an additional $3M. This equates to approximately 6,270m (28 holes) of additional drilling for a total of 26,500m in 91 holes. The additional meters will be used to test high-priority areas within the R780E Zone where specific step-out targeting of the high-grade domain is prospective. Additional drilling is also planned to further test the recent discovery of high-grade mineralization at the R600W zone, located 555m on strike to the west of the Triple R deposit.

Hole ID	Zone	Collar			* Hand-held Scintillometer Results On Mineralized Drillcore (>300 cps / >0.5M minimum)				Sandstone From – To (m)	Basement Unconformity Depth (m)	Total Drillhole Depth (m)
		Grid Line	Az	Dip	From (m)	To (m)	Width (m)	CPS Peak Range
PLS15-
325	R780E	720E	336	-70.3	138.0	150.5	12.5	<300 – 1200	NA	62.7	336.0
					156.5	175.0	18.5	<300 – 7000
					183.5	184.0	0.5	870
					191.0	191.5	0.5	350
					194.0	199.5	5.5	<300 – 1600
					202.5	205.0	2.5	600 – 2400
					208.0	209.0	1.0	320 – 330
					215.5	221.0	5.5	410 – 54000
					223.5	224.0	0.5	1000
PLS15- 327	R780E	1185E	337	-69.7	206.0	206.5	0.5	510	NA	68.0	308.0
PLS15- 330	R780E	1020E	336	-72.3	142.0	177.5	35.5	<300 – 45900	NA	67.7	386.0
					181.0	186.5	5.5	<300 – 760
					197.5	208.5	11.0	<300 – 3000
					211.0	216.5	5.5	520 – 5000
					245.0	250.0	5.0	<300 – 3600
					268.0	269.0	1.0	390 – 3800
					281.0	282.0	1.0	1200 – 2300
					294.0	294.5	0.5	480
					298.5	299.0	0.5	320
PLS15- 337	R780E	1080E	339	-70.7	103.5	104.0	0.5	350	NA	60.0	407.0
					150.0	156.5	6.5	<300 – 800
					160.5	166.5	6.0	<300 – 42300
					175.0	175.5	0.5	350
					182.0	189.5	7.5	<300 – 4100
					192.5	200.5	8.0	<300 – 1800
					208.5	211.5	3.0	350 – 6400
					217.0	217.5	0.5	340
					334.5	336.0	1.5	340 – 680
PLS15- 341	R780E	1050E	339	-72.3	140.5	154.5	14.0	<300 – 38400	NA	65.1	353.0
					158.5	159.0	0.5	300
					161.5	162.0	0.5	510
					166.5	205.0	38.5	<300 – 15800
					250.0	250.5	0.5	330
					255.5	258.5	3.0	<300 – 2100
					261.5	263.5	2.0	330 – 4400
					270.0	278.0	8.0	<300 – 3200
					284.0	286.5	2.5	<300 – 1500
PLS15- 344	R780E	1020E	341	-70.2	122.0	139.0	17.0	<300 – 3400	NA	68.5	434.0
					141.5	145.5	4.0	400 – 1500
					149.0	153.5	4.5	<300 – 970
					173.0	175.0	2.0	390 – 610
					178.0	178.5	0.5	420
					185.0	186.5	1.5	520 – 3900
					206.5	210.5	4.0	440 – 3200
					248.5	254.0	5.5	<300 – 9500
					257.0	276.5	19.5	<300 – 4600
					279.5	285.5	6.0	<300 – 4000
					305.0	313.0	8.0	<300 – 9500
					318.5	319.5	1.0	470 – 1300
					339.0	343.0	4.0	<300 – 890
					366.5	368.0	1.5	520 – 650
					377.5	378.5	1.0	340 – 360
					399.0	399.5	0.5	360
PLS15- 348	R780E	1110E	338	-69.9	174.5	175.0	0.5	310	NA	67.3	341.0
					263.0	263.5	0.5	310
PLS15- 351	R780E	975E	167	-79.1	169.0	183.5	14.5	<300 – 29800	NA	64.6	407.0
					187.5	195.5	8.0	<300 – 1400
					201.5	207.5	6.0	400 – 5200
					247.5	248.0	0.5	360
					256.5	272.5	16.0	<300 – 2400
PLS15- 353	R780E	705E	338	-72.0	144.0	145.0	1.0	310 – 470	NA	58.1	370.0
					150.0	162.5	12.5	<300 – 2200
					166.0	166.5	0.5	330
					185.5	189.0	3.5	<300 – 1200
					201.0	202.0	1.0	400 – 440
					369.0	369.5	0.5	940
PLS15- 354	R780E	1185E	348	-74	188.0	189.5	1.5	<300 – 1300	NA	66.3	407.0
					198.0	204.5	6.5	390 – 8600
					209.0	211.5	2.5	340 – 1400
					214.0	214.5	0.5	1900
PLS15- 355	R780E	990E	176	-81.1	145.5	149.0	3.5	<300 – 720	NA	65.6	341.0
					155.5	156.0	0.5	330
					158.5	159.0	0.5	350
					169.5	174.0	4.5	<300 – 340
					192.0	204.5	12.5	<300 – 4100
					209.0	224.0	15.0	<300 – 2900
					227.5	228.0	0.5	450
					245.5	249.0	3.5	<300 – 570
					255.5	258.0	2.5	<300 – 37200
					261.5	266.0	4.5	<300 – 3900
PLS15- 358	R780E	870E	347	-71.3	84.0	90.5	6.5	310 – 5100	NA	63.6	350.0
					110.5	114.0	3.5	<300 – 790
					122.0	149.0	27.0	<300 – 6900
					159.0	160.0	1.0	310 – 390
					164.0	164.5	0.5	330
					174.0	191.5	17.5	<300 – 1800
					209.0	210.5	1.5	330 – 6700
					272.0	274.0	2.0	480 – 1300
PLS15- 359	R780E	1110E	336	-70.3	149.0	152.0	3.0	<300 – 780	NA	64.3	347.0
					191.0	195.5	4.5	<300 – 970
					198.0	198.5	0.5	350
					201.5	205.5	4.0	<300 – 760
					221.0	229.5	8.5	<300 – 5200
					263.5	264.0	0.5	520
					274.0	275.5	1.5	310 – 760
					286.5	287.0	0.5	930
					323.0	324.0	1.0	450 – 560
PLS15- 361	R780E	1245E	336	-70.3	181.0	181.5	0.5	330	NA	76.6	353.0
					184.5	186.5	2.0	360 – 720
					191.5	193.5	2.0	<300 – 1300
PLS15- 362	R780E	750E	339	-72.2	164.5	170.5	6.0	<300 – 770	NA	59.8	467.0
					199.5	202.0	2.5	<300 – 1500
					205.0	207.5	2.5	<300 – 730
					211.0	215.0	4.0	<300 – 850
					220.0	221.0	1.0	300 – 470
					225.5	226.0	0.5	600
					234.0	235.5	1.5	<300 – 770
					241.5	252.5	11.0	<300 – 2900
					255.5	256.5	1.0	350 – 470
					279.5	290.0	10.5	<300 – 6200
					292.5	293.0	0.5	1100
					298.0	307.0	9.0	<300 – 9800
					313.5	314.0	0.5	330
					320.0	331.5	11.5	<300 – 12000
					347.0	351.5	4.5	<300 – 500
					381.5	382.0	0.5	330
					427.0	427.5	0.5	2300
PLS15- 363	R780E	855E	344	-69.2	154.5	155.0	0.5	330	NA	63.3	359.0
					171.5	180.5	9.0	<300 – 1300
					194.0	228.0	34.0	<300 – 1800
					233.5	234.0	0.5	400
					241.0	241.5	0.5	300
					247.5	264.5	17.0	<300 – 14700
					267.5	271.5	4.0	<300 – 2900
					277.0	278.0	1.0	320 – 430
					305.5	307.0	1.5	<300 – 3500
					310.0	313.0	3.0	<300 – 910
					344.5	345.0	0.5	310
PLS15- 365	R780E	855E	344	-68.3	81.0	82.5	1.5	330 – 450	NA	61.1	401.0
					95.5	113.0	17.5	<300 – 960
					116.0	118.5	2.5	<300 – 1200
					122.0	157.0	35.0	<300 – 65500
					161.0	166.5	5.5	330 – 6200
					245.5	246.0	0.5	310
					262.0	263.0	1.0	530 – 550
					273.0	284.0	11.0	<300 – 1700
					300.0	301.5	1.5	350 – 530
					320.5	322.0	1.5	1300 – 10000
					331.5	332.0	0.5	400
PLS15- 366	R780E	870E	346	-79.2	79.0	80.0	1.0	1800 – 2800	NA	62.4	284.0
					85.0	85.5	0.5	320
					134.5	138.5	4.0	320 – 840
					165.5	169.5	4.0	<300 – 1300
					176.0	176.5	0.5	430
PLS15- 368	R780E	480E	338	-72.1	66.5	123.5	57.0	<300 – 65500	57.0 – 58.0	58.0	293.0
					131.5	139.5	8.0	<300 – 5500
					147.5	152.5	5.0	360 – 2400
					163.5	167.5	4.0	340 – 3200
					170.0	170.5	0.5	760
					173.5	176.0	2.5	<300 – 490
					178.5	179.0	0.5	380
					191.5	192.0	0.5	370
					207.0	207.5	0.5	550
					228.0	229.0	1.0	570 – 1300

Natural gamma radiation in drill core that is reported in this news release was measured in counts per second (cps) using a hand held RS-121 Scintillometer manufactured by Radiation Solutions, which is capable of discriminating readings to 65,535 cps. The reader is cautioned that scintillometer readings are not directly or uniformly related to uranium grades of the rock sample measured, and should be used only as a preliminary indication of the presence of radioactive materials. The degree of radioactivity within the mineralized intervals is highly variable and associated with visible pitchblende mineralization. All intersections are down-hole. Individual zone wireframe models constructed from assay data indicate that both the R780E and R00E zones have a complex geometry controlled by and parallel to steeply south-dipping lithological boundaries as well as a preferential sub-horizontal orientation. All depths reported of core interval measurements including radioactivity and mineralization intervals widths are not always representative of true thickness and thus true thicknesses are yet to be determined.

Samples from the drill core will be split in half sections on site. Where possible, samples will be standardized at 0.5m down-hole intervals. One-half of the split sample will be sent to SRC Geoanalytical Laboratories (an SCC ISO/IEC 17025: 2005 Accredited Facility) in Saskatoon, SK for analysis which includes U3O8 (wt %) and fire assay for gold, while the other half will remain on site for reference. Analysis will include a 63 element ICP-OES, and boron.

PLS Mineralized Trend & Triple R Deposit Summary

Uranium mineralization at PLS has been traced by core drilling over 2.25km of east-west strike length in four separate mineralized “zones”. From west to east, these zones are; R600W, R00E, R780E and R1620E.

The discovery hole of what is now referred to as the Triple R uranium deposit was announced on November 05, 2012 with drill hole PLS12-022, from what is considered part of the R00E zone. Through successful exploration programs completed to date, it has evolved into a large, near surface, basement hosted, structurally controlled high- grade uranium deposit.

The Triple R deposit consists of the R00E zone on the western side and the much larger R780E zone further on strike to the east. Within the deposit, the R00E and R780E zones have an overall strike length of approximately 1.2km with the R00E measuring approximately 125m in strike length and the R780E zones measuring approximately 900m in strike length. A 225m gap separates the R00E zone to the west and the R780E zones to the east, though sporadic narrow, weakly mineralized intervals from drill holes within this gap suggest the potential for further significant mineralization in this area. The R780E zones are located beneath Patterson Lake which is approximately six metres deep in the area of the deposit. The entire Triple R deposit is covered by approximately 50 m of overburden.

Mineralization remains open along strike both to the western and eastern extents. Mineralization is both located within and associated with a metasedimentary lithologic corridor, associated with the PL-3B basement Electro-Magnetic (EM) Conductor.

Updated maps and files can be found on the Company’s website at https://fissionuranium.com/project/pls/.

Patterson Lake South Property

The 31,039 hectare PLS project is 100% owned and operated by Fission Uranium Corp. PLS is accessible by road with primary access from all-weather Highway 955, which runs north to the former Cluff Lake mine and passes through the nearby UEX-Areva Shea Creek discoveries located 50km to the north, currently under active exploration and development.

The technical information in this news release has been prepared in accordance with the Canadian regulatory requirements set out in National Instrument 43-101 and reviewed on behalf of the company by Ross McElroy, P.Geol. President and COO for Fission Uranium Corp., a qualified person.

About Fission Uranium Corp.

Fission Uranium Corp. is a Canadian based resource company specializing in the strategic exploration and development of the Patterson Lake South uranium property – host to the world-class Triple R uranium deposit – and is headquartered in Kelowna, British Columbia. Common Shares are listed on the TSX Exchange under the symbol “FCU” and trade on the OTCQX marketplace in the U.S. under the symbol “FCUUF.”

ON BEHALF OF THE BOARD “Ross McElroy” Ross McElroy, President and COO

Investor Relations Rich Matthews TF: 877-868-8140 rich@fissionuranium.com www.fissionuranium.com

Cautionary Statement:

Certain information contained in this press release constitutes “forward-looking information”, within the meaning of Canadian legislation. Generally, these forward- looking statements can be identified by the use of forward-looking terminology such as “plans”, “expects” or “does not expect”, “is expected”, “budget”, “scheduled”, “estimates”, “forecasts”, “intends”, “anticipates” or “does not anticipate”, or “believes”, or variations of such words and phrases or state that certain actions, events or results “may”, “could”, “would”, “might” or “will be taken”, “occur”, “be achieved” or “has the potential to”. Forward looking statements contained in this press release may include statements regarding the future operating or financial performance of Fission and Fission Uranium which involve known and unknown risks and uncertainties which may not prove to be accurate. Actual results and outcomes may differ materially from what is expressed or forecasted in these forward-looking statements. Such statements are qualified in their entirety by the inherent risks and uncertainties surrounding future expectations. Among those factors which could cause actual results to differ materially are the following: market conditions and other risk factors listed from time to time in our reports filed with Canadian securities regulators on SEDAR at www.sedar.com. The forward-looking statements included in this press release are made as of the date of this press release and the Company and Fission Uranium disclaim any intention or obligation to update or revise any forward-looking statements, whether as a result of new information, future events or otherwise, except as expressly required by applicable securities legislation.